Student Handbook - College of Engineering

Transcription

ENGINEERING DEGREE PROGRAMMES HANDBOOK
ACADEMIC YEAR 2016/2017
College of Engineering (COE)
Universiti Tenaga Nasional
Jalan Ikram-Uniten
43000 Kajang, Selangor
http://www.uniten.edu.my
Contents
Page
MESSAGE FROM THE DEAN
I
1
INTRODUCTION
4
INTRODUCTION
5
COLLEGE OF ENGINEERING MANAGEMENT
6
II
OUTCOME BASED EDUCATION (OBE) IN COE
COLLEGE OF ENGINEERING OUTCOME BASED EDUCATION PLAN
III
REGULATION
7
8
9
ACADEMIC CALENDAR
10
ASSESSMENT SCHEME
11
REQUIREMENT IN PASSING FINAL EXAM TO PASS A COURSE
11
GRADING SYSTEM
12
GRADE POINT AVERAGE (GPA)
13
CUMULATIVE GRADE POINT AVERAGE (CGPA)
14
REPEATING A CORE SUBJECT
14
ii
ACADEMIC STANDING
15
ATTENDANCE
16
DEAN’S LIST
16
CONDITIONS FOR GRADUATION
17
DEFERMENT OF STUDIES
17
IV
ACADEMIC ADVISING & SCORUN
19
COE ACADEMIC ADVISING
20
ACADEMIC ADVISOR . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
ADVISEE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
SCORUN
22
V
DEPARTMENT OF CIVIL ENGINEERING
28
INTRODUCTION
29
PROGRAM EDUCATIONAL OBJECTIVES (PEO) . . . . . . . . . . 30
PROGRAM OUTCOMES (PO) . . . . . . . . . . . . . . . . . . . . . . 31
PROGRAMME STRUCTURES
32
LIST OF INDUSTRY ADVISORY PANELS (IAP)
48
ADJUNCT PROFESSORS
49
EXTERNAL EXAMINERS
50
FACULTY MEMBERS
HEAD OF DEPARTMENT . . . . . . . . . . . . . . . . .
HEAD OF ACADEMIC UNITS . . . . . . . . . . . . . .
HEAD OF UNITS . . . . . . . . . . . . . . . . . . . . . .
PROFESSORS/ READERS . . . . . . . . . . . . . . . .
ASSOCIATE PROFESSORS/PRINCIPAL LECTURER
SENIOR LECTURERS . . . . . . . . . . . . . . . . . . .
LECTURERS . . . . . . . . . . . . . . . . . . . . . . . .
Academic Year 2016/2017
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COURSE DESCRIPTIONS
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DEPARTMENT OF ELECTRONICS AND COMMUNICATION
ENGINEERING
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INTRODUCTION
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EXTERNAL EXAMINER
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ADJUNCT PROFESSOR
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ADJUNCT ASSOCIATE PROFESSOR
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FACULTY MEMBERS
LECTURERS . . . . . . . . . . . . . . . . . . . . . . . .
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COURSE DESCRIPTIONS
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DEPARTMENT OF ELECTRICAL POWER ENGINEERING
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INTRODUCTION
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LIST OF INDUSTRIAL ADVISORY PANELS (IAP)
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ADJUNCT PROFESSOR
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EXTERNAL EXAMINER
FACULTY MEMBERS
ASSOCIATE PROFESSORS/ PRINCIPAL LECTURER
SENIOR LECTURER . . . . . . . . . . . . . . . . . . . .
LECTURERS . . . . . . . . . . . . . . . . . . . . . . . .
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COURSE DESCRIPTIONS
VIII
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DEPARTMENT OF MECHANICAL ENGINEERING
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INTRODUCTION
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LIST OF INDUSTRIAL ADVISORY PANELS (IAP)
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EXTERNAL EXAMINER
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FACULTY MEMBERS
PROFESSORS/ PRINCIPAL LECTURERS . . . . . . .
LECTURERS . . . . . . . . . . . . . . . . . . . . . . . .
ASSISTANT LECTURERS/ TUTORS . . . . . . . . . .
COURSE DESCRIPTIONS
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v
MESSAGE FROM THE DEAN
Welcome to the College of Engineering (COE) and Universiti Tenaga
Nasional (UNITEN). COE strives to provide a first class educational
experience to its undergraduate students preparing them for positions in
the industry in line with its status as a Tier 5 (Excellent) engineering
education provider (D-SETARA 2011). The college aspires to become the
leading engineering education provider and research leader in the area of
energy and sustainability. COE is the largest college in this university with
more than 3400 students and 14% are international students from 28
different countries.
This handbook has been produced to assist you in planning your studies in
UNITEN. It lists the programmes offered by each department in COE, the
courses that you are required to take, the sample of course distribution,
the faculty members and the course descriptions. The support services and
extract of academic regulations are also included.
There are three groups of people whom will help you get the most out your
study in COE. The teaching staff will provide lecture and tutorial support
and academic guidance. The technical support staff will help you with
your work in the laboratories. The administrative staff will help you with
everything to do with your programme administration.
Each student will be assigned an academic advisor for the duration of
their studies. The academic advisor is one of our lecturers who will advise
and guide you on your programme. He/she will help you in choosing the
courses to register for any particular semester and also assist you if you
experience any academic problems. Please meet your academic adviser
early in your programme and see them often. I am sure you will find them
friendly and helpful.
Our programmes are structured into semesters and are broad-based with
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a strong emphasis on basic fundamentals. Towards the end, you have
some choice in the areas you would wish to specialize. These specialized
technical electives are courses that are of great demand and need by the
industry and the nation at large. These are coupled with strong emphasis
on development of soft skills such as communication, leadership and
management, and nurturing humanities values, to mould you into a
well-rounded and competent professional engineer in harmony with
holistic societal values. We would like to produce engineers who are
career resilience, i.e. always equip themselves with the latest tools,
technology and skills to be able to adapt and are ever ready to apply them
to any work environment.
The college staff works hard to produce a high quality and innovative
educational experience for our students. Our programmes are accredited
by Malaysian Qualifications Agency (MQA) and the bachelor programmes
are recognized by the Engineering Accreditation Council (EAC). In order
to ensure that all the bachelor programmes offered in COE are relevant to
the industry, Outcome Based Education (OBE) is implemented in all the
engineering bachelor programmes.
OBE requires that inputs from all stake-holders are sought in designing
and reviewing the programme curriculum and clear statement of
Programme Educational Objectives (PEO) and Programme Outcomes are
required. In order to ensure that the quality of the programmes are
continuously improved, a clear Continual Quality Improvement (CQI)
system which requires measurement of achievement of the outcomes
while the students are in UNITEN and after they leave UNITEN, analyze
the results and use them to continuously improve the quality of the
programme.
All students are encouraged to be involved in out of class activities which
will enrich their learning experience. Various activities are arranged from
time to time by either the student societies or the college such as
industrial talks, industrial visits, internal and external engineering related
competitions etc. Your involvement in the activities will be given
SCORUN points which will be accumulated until your graduation.
On behalf of the college, I wish you a successful and enjoyable experience
as a student in COE. Thank you.
Yours sincerely,
2
Associate Professor Dr. Izham bin Zainal Abidin
Dean, College of Engineering
3
Part I
INTRODUCTION
4
INTRODUCTION
The College of Engineering has kept pace with the demands of the
scientific and technological world. The college strives to provide a
first-rate educational experience and first class education to its
undergraduate students preparing them for positions in the industry or
academia. The college comprises of four departments which are:
• Department of Electronics & Communication Engineering,
• Department of Electrical Power Engineering,
• Department of Mechanical Engineering, and
• Department of Civil Engineering.
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COLLEGE OF ENGINEERING MANAGEMENT
Dean
:
Associate Professor Dr. Izham
bin Zainal Abidin
Deputy Dean
(Academic & Quality Assurance)
:
Associate Professor Dr. Miszaina
binti Osman
Deputy Dean
(Research & Post Graduated Studies)
:
Professor Dr. Ong Hang See
Deputy Dean
(Students Affair & External Relation)
:
Associate Professor Dr. Nasri
bin A. Hamid
Head of Department
(Electronics &
(Communication Engineering)
:
Dr. Farah Hani binti Nordin
Head of Department
(Electrical Power Engineering)
:
Associate Professor Dr. Ungku Anisa
binti Ungku Amirulddin
Head of Department
(Mechanical Engineering)
:
Associate Professor Dr. Khairul Salleh
bin Mohamed Sahari
Head of Department
(Civil Engineering)
:
Ir. Zakaria Bin Che Muda
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Part II
OUTCOME BASED EDUCATION (OBE)
IN COE
7
COLLEGE OF ENGINEERING OUTCOME BASED EDUCATION
PLAN
OBE FRAMEWORK
 The Outcome Based Education
(OBE) implementation is in line with
the requirement of the Malaysian
Engineering Accreditation Council
(EAC), the Engineering accreditation
body in Malaysia.
 OBE is an approach in education
where decisions about a course and a
programme are driven by the exit
learning outcomes that students
should have at the end of a course and
the end of a programme.
 The OBE implementation is guided by
the OBE Framework.
 Each course contains Course Outcomes (COs)
which are mapped to Program Outcomes (POs).
 A student is said to be attained if 70% of the
students obtained at least 40% of the CO marks.
 A PO is said to be attained if 70% of the students
taking the course obtain at least 40% of the PO
marks.
 The Programme Educational Objectives (PEOs)
are qualities projected of our graduates three to five
years after graduation.
 In preparing students for their prospective careers,
each graduate will possess the Programme
Outcomes (POs) attributes upon graduating from
our Engineering programme.
 These POs are ingrained into the programme via
course outcomes (COs) addressed in each course
the student will undertake during their studies.
OBE Plan
8
Part III
REGULATION
9
ACADEMIC CALENDAR
Academic Calendar Year 2016/2017
(All dates are subject to change)
Semester
Dates
Semester 1
• Classes
• 30 May 2016 – 01 Jul 2016
• Break (no class)– 1 week
• 02 Jul 2016 – 10 Jul 2016
• Classes
• 11 Jul 2016 – 09 Sep 2016
• Convocation
• 20 Aug 2016 – 21 Aug 2016
• Final Examination
• 13 Sep 2016 – 27 Sep 2016
Break between semesters – 2 weeks
Semester 2
28 Sep 2016 – 09 Oct 2016
• Classes
• 10 Oct 2016 – 09 Dec 2016
• Break (no class)– 1 week
• 10 Dec 2016 – 18 Dec 2016
• Classes
• 19 Dec 2016 – 20 Jan 2017
• 23 Jan 2017 – 07 Feb 2017
Special Semester
08 Feb 2017 – 19 Feb 2017
• Classes
• 20 Feb 2017 – 28 Apr 2017
• 02 May 2017 – 08 May 2017
09 May 2017 – 21 May 2017
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ASSESSMENT SCHEME
The evaluation of each subject is done on a scale and the on-going assessments
agreed upon by the college as approved by the university. The performance of a
student is based on the following:
• On-going assessment based on scheduled tests, assignments/projects and
quizzes. Not more than 70% of the total number of marks will be allocated
for the on-going assessments and each component will not be allocated
more than 30% of those marks.
• Final examination will be comprehensive and will be held at the end of the
semester for each subject. Not less than 30% of the total number of marks
will be allocated for the final exam.
The evaluation for practical training will be according to that stipulated by the
college upon the approval of the university.
REQUIREMENT IN PASSING FINAL EXAM TO PASS A COURSE
The special conditional requirements for final examination are as listed below:
• A student must sit for his/her final examination if he/she registers for courses
with final examination as an assessment. Regardless of his/her carry marks,
grade ’E’ will be awarded automatically to students who do not sit for his/her
final examination.
• Definition of Pass for final examination assessment is 20% of the full mark of
the final exam.
• If a student obtains marks 20% and above for his/her final examination, a
grade will be awarded based on his/her total marks inclusive of his/her
cumulative marks.
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• If a student obtains marks less than 20% for his/her final examination, he/she
will be awarded grade E regardless of his/her carry marks.
• This is only applicable to engineering courses.
GRADING SYSTEM
His/her Grade Point Average (GPA) and Cumulative Grade Point Average (CGPA)
indicate a student’s performance. The following table is a general summary of the
assessment:
Grading System
Grade
Grade
Points
4.00
4.00
3.67
3.33
3.00
2.67
2.33
2.00
1.67
1.33
1.00
0.00
A+
A
A–
B+
B
B–
C+
C
C–
D+
D
E
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GRADE POINT AVERAGE (GPA)
Your grade point average (GPA) is based on your work each semester; you will
have a separate GPA for each semester you are in the program. It is determined as
follows:
• Multiply the number of credit hours assigned to a course by the number of
grade points to determine the number of credit points, or quality points,
corresponding to the grade you received.
• Add all the credit points.
• Divide that sum by the total number of credit hours for which you received
a grade.
GPASemester =
Total Credit Points
Total Credit Hours for that Semester
P
GPASemester = P
(Grade Points × Credit Hours)
Credit Hours for that Semester
For example:
Example of GPA Calculation
Course
History
Math
Sociology
Physics
Credit
Hours
3
4
3
5
Grade
B
B+
A–
B–
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Grade
Points
3.00
3.33
3.67
2.67
Credit
Points
9.00
13.32
11.01
13.35
GPASemester =
46.68
= 3.112
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CUMULATIVE GRADE POINT AVERAGE (CGPA)
Your cumulative grade point average (CGPA) includes all the course work you
have completed in the program. Your CGPA is calculated in the same way that
your GPA is computed. The difference is that while only one semester’s worth of
courses are considered in your GPA, courses from all your semesters in the
program count in your CGPA.
P
CGPA = P
(Grade Points × Credit Hours)
Credit Hours for Whole Program
REPEATING A CORE SUBJECT
Students who fail a compulsory subject are required to retake the subject until
they obtain a passing grade.
For the purpose of CGPA calculation, all
subjects/courses registered including failed subjects/courses will be taken into
account in the calculation. A recalculation of CGPA will be done when a student
’repeat and replace’ a subject/course. Students are allowed to repeat and replace
their subject/course grades obtained for all their courses throughout their study
period but within the maximum study period as stipulated in the Academic
Regulation, and the best grade will be included in the CGPA calculation.
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Besides the letter grades A,B,C,D,E the following status is also applied:
Status
Status
BS = Incomplete
PK = Credit Transfer
LU or = Pass or GA Fail
TD = Withdraw
AU = Audit –
Description
A student is given an incomplete if he/she did not sit for
the examination or did not complete the assignments (e.g.
Projects) by the stipulated date due to ill health as certified
by a medical officer or for other reasons upon the approval of
the College Dean/Unit Head. The student is then required
to sit for a special exam, to replace the missed exam or is
required to complete the assignment by a date stipulated by
the College Dean/Unit Head. The extended deadlines must
be of reasonable length.
A student is granted a credit transfer for a particular
subject in accordance with the regulations. The student
is considered not to have fulfilled the credit hours for the
UNIVERSITY subjects.
A student is given P/F for a subject where it is difficult
to determine and award a letter grade or for the time
spent at the industrial training. In such a subject, the
grade Pass will be awarded if the student has met the
requirements satisfactorily. The grade Fail will be awarded if
the student has not met the requirements. The grade P/F is
not calculated in the GPA and CGPA, but students who secure
a Fail will have to repeat the subject until he/she secures a
Pass.
A student withdraws from the program after the deadline
(as specified in the Academic Regulations section 3.9.2 but
before the date specified in 3.9.3). The subject withdrawn is
not calculated in the CGPA but it is recorded in the transcript.
A student registers with the intention of attending classes
but is not assessed.
ACADEMIC STANDING
A student’s performance is evaluated using the CGPA. A student’s academic
achievement is determined at the end of each semester by using the CGPA as
shown in the following table.
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Academic Standing
Achievement
Good Standing (KB)
Probation (KP)
CGPA
≥ 2.00
< 2.00
ATTENDANCE
A student must attend not less than 80% of the contact hours of the subject
concerned. Action will be taken against students whose attendance is less than
80% of the contact hours without a valid reason. The student may be barred from
attending further classes and from taking any form of assessment.
DEAN’S LIST
A student who obtains a GPA≥3.50 and has grades of not more than C in any
subject taken during that semester and carries a work load of 12 credit hours will
be included in the Dean’s list in the following semester. The Dean’s list will be
displayed on the notice board of the college. The student’s transcript will show
this notation.
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CONDITIONS FOR GRADUATION
Students will only be eligible for graduation after having met the following
requirements:
• The student has completed the minimum requirement of credit required by
the program and the area of specialization throughout the duration of the
studies.
• The student has a CGPA of not less than 2.00 overall in all the subjects
throughout the duration of the studies and has obtained the required CGPA
in the core subjects and area of specialization as stipulated by the university.
• The student has settled all outstanding payments to the university.
• The student has applied to graduate and has received the approval from the
college.
• The student has no outstanding cases of indiscipline.
DEFERMENT OF STUDIES
A student who has been certified sick by a medical officer may write–in to request
that the studies be deferred. This deferment is valid for two semesters only. The
deferment will not be included in determining the number of semesters to date.
A student may also request for a deferment of studies not only on the basis of ill
health. The request must be submitted before the start of the following semester.
However, this deferment will be included in determining the number of semesters
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to date. A student who has been advised to defer his/her studies by the university
will have that semester counted.
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Part IV
ACADEMIC ADVISING & SCORUN
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COE ACADEMIC ADVISING
The objective of College of Engineering (COE) Academic Advising Unit is to provide
comprehensive academic advising and related supporting services for the students
to achieve academic success during their study at COE. COE, through an effective
Academic Advising system, strives to:
• Assist undergraduates in achieving academic excellence consistent with their
goals and strengths.
• Assist undergraduates in developing academic plans, exploring majors and
career options based on their interests, skills and abilities.
• Assist undergraduates in navigating transitions and overcoming challenges
during their study at COE.
Two important components of the COE Academic Advising system are Academic
Advisor and Advisee. All academicians of COE are appointed as an Academic
Advisor.
Students, the Advisees are assigned with an Academic Advisor
throughout their study in COE.
ACADEMIC ADVISOR
All the academicians of College of Engineering (COE) are appointed as Advisors
for the department they are attached respectively. They are assigned with a group
of Advisees by the Head of Department (HOD). The role and responsibilities of an
Academic Advisor are as followings:
• Meet the advisees during subject registration week which is held every
semester and at any other times throughout the semester to discuss on
academic matters.
• Acquaint advisees with the academic regulations, policies, and integrity
system of the University, College and Department.
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• Assist advisees in planning each semester’s courses.
• Assist advisees throughout the study until he/she graduate successfully.
• Encourage advisees to actively involve in college and campus events and
activities.
ADVISEE
All undergraduates of College of Engineering are assigned with an Academic
Advisor. Undergraduates, as advisees, have a large responsibility in the advising
system and should take the initiative to seek advisement and develop close
relationships with their advisors. The role and responsibilities of an Advisees are
as followings:
• Meet the Academic Advisor during subject registration week which is held
every semester and at any other times throughout the semester to discuss on
academic matters.
• Schedule appointments with Academic Advisors during designated times and
be prepared for advising sessions.
• Be prompt at appointments with their Academic Advisors.
• Advisees are encouraged to have a plan of courses in which they wish to
enroll, and be able to discuss their interests and goals with their Academic
Advisor.
• Consult the Academic Advisor if they are experiencing academic difficulty
All students at College of Engineering is assigned to an Academic Advisor (AA). AA
is responsible for helping you on academic matters until your graduation. AA will
guide the students in selecting subjects, locating resources and ensuring you are on
track to graduate. You are required to make an appointment each semester to see
your advisor. Please do not make an appointment during your class times. Please
be on time for your appointment. If you cannot attend the appointment notify your
advisor at least one day before your scheduled appointment.
For further information, please visit COE Academic Advising Unit Moodle page:
http://lms.uniten.edu.my/moodle/course/view.php?id=659
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SCORUN
Students Activities Online Reporting System of UNITEN (SCORUN) is a merit
system developed by Uniten to compliment and measure the students engagement
in nonacademic extracurricular activities. Every student need to complete the
minimum merit in order to graduate from the level of studies.
All students pursuing engineering bachelors program are required to collect 40
merit points to graduate from the program.
Generally, all the extracurricular activities are categorized into 5 pillars as
followings:
• Communication & Entrepreneurship
This category will encourage students to conduct activities that help enhance
their communication and entrepreneurial skills. Activities conducted include
Secondhand Textbooks Sales, Communication Boot Camp, Public Speaking
Competition, Theatre Competition, and ext.
• Leadership & Intellectual
This category is designed to train students in becoming great leaders in
future. It is also designed specifically to improve studentsŠ attitude in
handling problems and tasks assigned intellectually. Activities conducted
include Leadership Camp, Seminar and Workshops, Campus Survival
Competition, Team Building, Appreciation Dinner or Tea, Training of
Trainers, Raptor Watch Voluntary, and ext.
• Spiritual & Civilization
This category is designed to uphold students spiritual as to lead a Godly life.
Students will be given exposure in acknowledging the poor and needy people
by carrying out activities like community service. Activities conducted include
Car Boot Sales, Motivational Talk From Zero to Hero, Zoo Clean Up Day,
Islamic Talk, Inter-faith Talk, and ext.
• Sports & Recreation
This category is initiated to promote healthy lifestyles among students.
Students will also be exposed about nature by recreational activities such as
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camping in the jungle. It is also to instil sportsmanship attitude in students
themselves. Activities include Basketball 3 on 3 Challenge, Badminton
Tournament, Sports Day, Family Day, Hiking, Extreme Sports, and ext.
• Arts & Cultural
This category is focusing on enhancing students’s knowledge about Malaysia
and International art and culture. As UNITEN has students of different races
and nationalities, this category is responsible to conduct activities that help
promote the different cultures from different races and nationalities.
Activities conducted include Art and Cultural Day, Red Packet Design
Competition,
Tanglung Designing Competition,
Ketupat Folding
Competition, Trip to BalaiSeniBudaya, and ext.
COE students are highly encourage to participate in activities from all the 5 pillars
to further develop and enhance their communication and interpersonal skills before
entering the challenging career life. It is an enriching and memorable experience
that develops character and instills noble values among students.
The SCORUN point for an activity is calculated based on the following criteria:
• A
Position held by the student in a program/activity.
• B
Level of the program/activity being carried out. (zone/university/state).
• C
Achievement of the
(gold/silver/bronze).
student
in
the
competition
participated.
Total RUN for the activity = A+B+C. The system will generate the total RUN based
on the above criteria.
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Student can view their SCORUN points from the Student Info System.
• Login to http://info.uniten.edu.my/info.
Student Info System
• Click Scorun on the menu list.
SCORUN System
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• On Scorun page, click Student on the menu list. There are 3 menu list namely,
Register Activity, Progress Report and Student Activity List.
Scorun Menu List
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• Register Activity is used to register student’s activity.
Register Activity
• Students can view their SCORUN merit points at Progress Report. The list of
activities participated by students with the merit points are displayed
according to the 5 categories. At the end of the page total SCORUN Point is
displayed.
List of Activities by Category
Total Scorun Points
• Student Activity List is used to display the activities that the student already
registered. It serves as a planner.
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Student Activity List
Academic Advisor can check their advisee’s SCORUN points from the portal. Login
to http://portal. On the menu list displayed on the left, click Online»Choose
Advisee.
Student’s SCORUN point
List of clubs and societies in UNITEN:
List of clubs and societies
Student Development Unit
Bahas
Bencana Alam (Pencinta Alam)
CLICQ
ICE Student Chapter (ICE)
IEEE Student Branch (IEEE)
IET Student Chapter (IET)
IMechE STUDENT CHAPTER (IMECHE)
International Student Society (ISS)
Kelompok Amanah
Kelompok Cendikiawan
Sports Unit
Astena
Badminton
Bola Jaring
Bola Keranjang
Bola Tampar
Bolasepak
Bowling
Catur
Fencing (Lawan Pedang)
Fitness Club/Frisbee
Continue
27
Student Development Unit
Kelompok Ilmu
Kelompok Ilmu
Kelompok Murni
KLKM (Kump. Latihan Kelanasiswa Malaysia)
Majlis Perwakilan Pelajar (MPP)
MPP (Borneo Student Sapiens)
MPP (Japanese Cultural - JCCU)
Mobile Robotics Club
Persatuan Pembimbing Rakan Sebaya (PRS)
Persatuan Pengajian Islam (PPI)
Sekretariat Rakan Muda (SERAMU)
Sekretariat Rukun Negara (SRN)
Shutters
SIFE
SIR (Kejuruteraan)
Techflow (Uniten Christian Fellowship)
UBF (Uniten Buddhist Fellowship)
Wawasan
Continuation
Sports Unit
Hoki
Hoki
Karate - Do
Kembara & Rekreasi
Kriket
Motorsport
Ping Pong
PKC
(Persatuan
Kebudayaan Cina)
PKI
(Persatuan
Kebudayaan India)
Ragbi
Renang
Rowing
Sepaktakraw
Silat Cekak Ustaz Hanafi
Silat Gayong
Skuash
Taekwando
Tenis
28
Part V
DEPARTMENT OF CIVIL ENGINEERING
29
INTRODUCTION
The Department of Civil Engineering offers a full-time undergraduate programme
leading to the award of Bachelor of Civil Engineering (Honours) which is designed
to prepare students to become Civil Engineers who are able to plan, design,
construct and maintain civil engineering facilities such as buildings, bridges,
foundation, highways, water supply systems, sewerage schemes and other form of
infrastructure. The program is also designed to provide students with the
educational base to progress to Professional Engineer status as well as to
undertake Master of Civil Engineering and Doctor of Philosophy from UNITEN
and other reputable institutions of higher learning.
The Bachelor of Civil Engineering (Honours) is a 4-year programme where
undergraduate students will study courses in civil engineering in the following
areas:
• Structural Engineering.
• Water Engineering.
• Geotechnical Engineering.
• Environmental Engineering.
• Transportation
Engineering.
• Project
Management
Construction.
&
Highway
and
In addition to the above, undergraduate students will also study other technical
courses such as Engineering Surveying, Engineering Geology, Computer
Programming, Engineers in Society and Computer Aided Design and Drafting
Technology.
The use of computer applications and software is integrated
throughout the program. Students will also study English and Malay languages,
technical communication, moral/religious studies and humanities in order to
produce engineers who are technically competent with strong commitment to
ethics and professionalism and able to communicate effectively which are all
essential for students to build successful career.
Undergraduate students will undertake a capstone design project in their final
year. It is a team design project applying engineering and project management
30
principles for a multidisciplinary design which would involve an integration of all
aspects of Civil Engineering namely Environmental, Geotechnical, Water Supply,
Sewerage, Structural, Transportation and Project Management, with the design
process from conceptual and preliminary design to final design for construction
purposes. It requires that each student demonstrate the ability to complete a
significant engineering design using the knowledge gained as an undergraduate in
the Civil Engineering program.
Undergraduate students will undergo industrial training at the end of the third
year where students will be exposed to the various aspects of industrial practices
and ethics and to acquire knowledge and skills of practical nature which are
needed for their professional development.
Students are also required to
undertake research activities in their final year. The Final Year Project courses
provide opportunities for students to acquire knowledge through research
activities and to apply this knowledge to real life problems.
The Department of Civil Engineering has a total of thirteen (13) undergraduate
laboratories which are:
• Civil Engineering Materials.
• Highway Engineering
• Mechanics of Materials .
• Transportation Engineering.
• Structural Engineering.
• Hydrology
Engineering.
• Soil Mechanics.
and
Hydraulic
• Geotechnical Engineering.
• Environmental Engineering.
• Engineering Geology.
• AutoCAD.
• GIS.
• Engineering Surveying.
The Department of Civil Engineering is in an active phase of growth and
development. The upcoming year will be an exciting one with strategic plans and
potential future paths for continued excellence for staff and students alike.
31
PROGRAM EDUCATIONAL OBJECTIVES (PEO)
UNITEN produces Civil Engineering graduates who:
PEO1
PEO2
PEO3
PEO4
Are practicing engineers in civil engineering with the ability to venture into
energy related business.
Hold leadership responsibilities and/or establish their own enterprises.
Have professional qualifications/certifications in civil engineering related
areas.
Are engaged in activities to enhance knowledge in their professional works.
PROGRAM OUTCOMES (PO)
Students graduating from the Bachelor of Civil Engineering programme will have
the ability to:
PO1
PO2
PO3
PO4
PO5
PO6
PO7
PO8
PO9
PO10
PO11
PO12
Apply fundamental knowledge of mathematics, science and civil engineering
principles in solving complex problems.
Identify, formulate, analyse and solve complex civil engineering problems.
Design solutions for complex civil engineering problems that meet specific
needs with appropriate consideration for public health and safety, culture,
society, and environment.
Conduct investigations, interpret data and provide conclusions in
investigating complex problems related to civil engineering.
Create appropriate techniques, select resources, and apply modern
engineering tools to execute complex engineering activities.
Apply reasoning in assessing societal, health, safety, legal and cultural issues
and the consequent responsibilities relevant to professional engineering
practice.
Demonstrate knowledge of the impact of professional engineering solutions
in environmental contexts and the need for sustainable development.
Demonstrate commitment to professional and ethical principles.
Communicate effectively on complex engineering activities.
Function effectively as an individual and in a group with the capacity to be a
leader.
Acknowledge the need for, and be able to engage in life-long learning.
Demonstrate knowledge on project management principles and
entrepreneurship skills.
32
Bachelor of Civil Engineering (Hons.): Programme Structure for Malaysian
Students (for Degree Intake starting in Semester 1, 2016/2017)
Semester
Code
Course
Semester
I
MATB113
Advanced
Calculus
&
Analytical Geometry
Mechanics I: Statics
Civil Engineering Materials
Laboratory
Engineering Geology
Geology Laboratory
Tamadun Islam Tamadun Asia
Total Credit Hours
Differential Equations
Mechanics of Materials
Mechanics
of
Materials
Laboratory
Mechanics of Fluids
Mechanics
of
Fluids
Laboratory
Mechanics II: Dynamics
Islam/Moral & Civil Society
for Engineers I
Total Credit Hours
CECB113
CEMB113
CEMB111
CEGB112
CEGB111
ETIB113
Semester
II
MATB143
CEMB124
CEMB121
CEWB123
CEWB121
CECB122
ICEB113/
MCEB113
Credit
Hours
3
Prerequisite
NONE
Corequisite
NONE
3
3
1
NONE
NONE
NONE
NONE
CEMB111
CEMB113
2
1
3
16
3
4
1
NONE
NONE
NONE
CEGB111
CEGB112
NONE
NONE
CECB113
CECB113
NONE
CEMB121
CEMB124
3
1
CECB113
CECB113
CEWB121
CEWB12
2
3
CECB113
NONE
NONE
NONE
17
Continue
33
Semester
Code
Semester
III
MATB133
CESB223
CEGB233
Statistics for Civil Engineers
Structural Analysis I
Soil Mechanics
CECB212
Civil Engineering Drafting
Technology
Technology Laboratory
for Engineers II
Total Credit Hours
Principles of Programming for
Engineers
Surveying for Engineers
Surveying Practical Training
Introduction
to
Environmental Engineering
Introduction
to
Laboratory
Hydraulic Engineering
Hydrology
&
Hydraulic
Engineering Laboratory
Personal
Financial
Management
Total Credit Hours
Reinforced Concrete Design I
CECB211
ICEB212/
MCEB212
Semester
IV
CCSB163
CEVB213
CEVB211
CEEB223
CEEB221
CEWB222
CEWB221
AKPK111
Semester
V
CESB343
CESB353
CEEB313
Credit
Hours
3
3
3
2
1
NONE
CECB212
2
ICEB113/
MCEB113
NONE
15
3
NONE
NONE
3
1
3
NONE
NONE
NONE
CEVB211
CEVB213
CEEB221
1
NONE
CEEB223
2
1
CEWB123
CEWB123
CEWB221
CEWB222
1
NONE
NONE
CESB353
3
3
CECB212,
CESB223,
CEMB113
CESB223
CEEB223
3
3
CEGB233
NONE
NONE
NONE
CEMB113,
CEGB233
CECB212,
CESB223,
CEMB113
CEWB222
CESB343,
CEGB333
NONE
NONE
NONE
15
3
CETB322
CESB333
Structural Steel Design I
3
CEWB322
CEPB323
Hydrology Engineering
Project
Management
&
Construction
Technical Communication
Hubungan Etnik
Total Credit Hours
2
3
TECB213
EHEB113
Continuation
Corequisite
NONE
NONE
CEGB231
Prerequisite
NONE
CEMB124
CEMB124,
CEGB112
NONE
Structural Analysis II
Water
&
Wastewater
Engineering
Geotechnical Engineering
Literature
&
Sociology
Electives
Total Credit Hours
Highway Engineering
CEGB333
***
Semester
VI
Course
15
2
3
3
16
CECB211
NONE
NONE
CESB353
NONE
NONE
NONE
NONE
Continue
34
Semester
Code
Special
Semester
COEB314
Industrial Training
Semester
VII
CESB423
Total Credit Hours
Reinforced Concrete Design II
Credit
Hours
4
CESB343
NONE
CEGB333
MATB113,
MATB143,
CCSB163
CETB322
CETB322
NONE
NONE
3
3
CETB412
CETB411
Transportation Engineering
Highway & Transportation
Project I
2
1
CERB424
***
***
CESB493
Engineers in Society
Total Credit Hours
Project II
Civil Engineering Elective I
Civil Engineering Elective II
Integrated Civil Engineering
Design Project
Total Credit Hours
Overall Credit Hours
Continuation
Corequisite
NONE
3
Foundation Engineering I
Numerical Methods for Civil
Engineers
COEB422
Prerequisite
CESB343,
CEGB333,
70 CH
4
CEGB423
CECB423
CERB412
Semester
VIII
Course
2
2
13
4
3
3
3
CETB411
CETB412
CESB343,
CEGB333,
CEWB322,
CEPB323
CEPB323
NONE
CERB412,
COEB314
NONE
CEEB313,
CETB322,
COEB314,
CESB423
NONE
NONE
13
127
Civil Engineering Elective Courses (Take any 2 subjects)
CESB463
Analysis and Design of Civil
3
CESB343
Engineering Structures
CESB473
Structural Steel Design II
3
CESB333
CEGB493
Environmental
3
CEGB333
Geotechnology
and
Geotechnical Modeling
CEGB463
Field and Rock Engineering
3
CEGB333
CETB413
Transportation Planning
3
CETB322,
CETB412
CETB423
Highway Design and Traffic
3
CETB412
Engineering
CEWB423
Water Resources Engineering
3
CEWB222,
CEWB322
CEWB433
Urban
Hydrology
&
3
CEWB222,
Stormwater Engineering
CEWB322
CEEB433
Solid Waste Management
3
CEPB323
CEGB483
GIS for Civil Engineering
3
CEPB323
Application
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
Continue
35
Semester
Code
Course
CETB423
Engineering
Computer
Analysis
and
Design of Structures
Repair,
Assessment
and
Rehabilitation
Dam Engineering
CESB403
CESB483
CEWB49
AKPK111
EHEB113
ICEB113/
MCEB113
ICEB212/
MCEB212
ETIB113
MLKB113
KDKB113
SPRB113
KKSB113
RELB113
PKIB113
SPYB113
MANB113
FRAB113
GERB113
JAPB113
Prerequisite
CETB412
3
NONE
3
CESB333,
CESB343
COEB314
3
CEPB323
NONE
EEEB323
NONE
EEEB373
NONE
NONE
NONE
ICEB113/
MCEB113
NONE
NONE
MQA and University (Compulsory)
Personal
Financial
1
Management
Hubungan Etnik
3
Islamic / Moral and Civil
3
Society for Engineers I
3
Society for Engineers II
Tamadun Islam Tamaduan
3
Asia
Literature and Sociology (Take any 1 subject)
Bahasa
Kebangsaan
A
3
(Compulsory for Malaysian
students without Credit in
Bahasa Malaysia SPM)
Kepimpinan & Keusahawanan
3
Sports & Recreation at
3
Workplaces
Kaunseling & Kerja Sosial
3
Comparative Religion
3
Creative Thinking
3
Introduction
to
Social
3
Psychology
Mandarin Language
3
Basic French
3
Basic German
3
Japanese Language
3
Continuation
Corequisite
CESB423
Credit
Hours
3
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
36
Bachelor of Civil Engineering (Hons.): Programme Structure for International
Students (for Degree Intake starting in Semester 1, 2016/2017)
Semester
Code
Course
Semester
I
MATB113
Advanced
Calculus
&
Analytical Geometry
Laboratory
Engineering Geology
Geology Laboratory
Malay
Language
for
International Student
Total Credit Hours
Mechanics
of
Materials
Laboratory
Mechanics of Fluids
Mechanics
of
Fluids
Laboratory
Total Credit Hours
Soil Mechanics
CECB113
CEMB113
CEMB111
CEGB112
CEGB111
MALB103
Semester
II
MATB143
CEMB124
CEMB121
CEWB123
CEWB121
CECB122
Semester
III
MATB133
CESB223
CEGB233
CECB212
CECB211
***
Technology
International
MPU
Compulsory [U2]
Total Credit Hours
Credit
Hours
3
Prerequisite
NONE
Corequisite
NONE
3
3
1
NONE
NONE
NONE
NONE
CEMB111
CEMB113
2
1
3
NONE
NONE
NONE
CEGB111
CEGB112
NONE
16
3
4
1
NONE
CECB113
CECB113
NONE
CEMB121
CEMB124
3
1
CECB113
CECB113
CEWB121
CEWB12
2
14
3
3
3
CECB113
NONE
NONE
NONE
CEGB231
2
NONE
CEMB124
CEMB124,
CEGB112
NONE
1
NONE
CECB212
3
NONE
NONE
CECB211
16
Continue
37
Semester
Code
Course
Semester
IV
CCSB163
Engineers
Introduction
to
Introduction
to
Laboratory
Hydrology
&
Hydraulic
International
MPU
Compulsory [U3]
Total Credit Hours
CEVB213
CEVB211
CEEB223
CEEB221
CEWB222
CEWB221
***
Semester
V
CESB343
CESB353
CEEB313
Semester
VI
3
1
3
NONE
NONE
NONE
CEVB211
CEVB213
CEEB221
1
NONE
CEEB223
2
1
CEWB123
CEWB123
CEWB221
CEWB222
3
NONE
NONE
CESB353
3
3
CECB212,
CESB223,
CEMB113
CESB223
CEEB223
3
3
CEGB233
NONE
NONE
NONE
CEMB113,
CEGB233
CECB212,
CESB223,
CEMB113
CEWB222
CESB343,
CEGB333
NONE
NONE
NONE
17
3
CETB322
CESB333
3
CEWB322
CEPB323
Project
Management
&
Construction
Malaysian Studies
Total Credit Hours
Industrial Training
2
3
3
3
16
4
Total Credit Hours
4
TECB213
MASB113
Special
Semester
Prerequisite
NONE
Water
&
Wastewater
Engineering
International
MPU
Compulsory [U4]
Total Credit Hours
Highway Engineering
CEGB333
***
COEB314
Continuation
Corequisite
NONE
Credit
Hours
3
15
2
CESB343,
CEGB333,
70 CH
NONE
NONE
CESB353
NONE
NONE
NONE
NONE
NONE
Continue
38
Semester
Code
Course
Semester
VII
CESB423
CEGB423
CECB423
CETB412
CETB411
CERB412
COEB422
Semester
VIII
CERB424
***
***
CESB493
Credit
Hours
3
Prerequisite
CESB343
Engineers
3
3
Project I
2
1
CEGB333
MATB113,
MATB143,
CCSB163
CETB322
CETB322
Total Credit Hours
Project II
Design Project
Total Credit Hours
2
2
16
4
3
3
3
Continuation
Corequisite
NONE
NONE
NONE
CETB411
CETB412
CESB343,
CEGB333,
CEWB322,
CEPB323
CEPB323
NONE
CERB412,
COEB314
NONE
CEEB313,
CETB322,
COEB314,
CESB423
NONE
NONE
13
127
CESB463
3
CESB343
CESB473
3
CESB333
CEGB493
Environmental
3
CEGB333
Geotechnology
and
CEGB463
3
CEGB333
CETB413
3
CETB322,
CETB412
CETB423
3
CETB412
Engineering
CEWB423
3
CEWB222,
CEWB322
CEWB433
Urban
Hydrology
&
3
CEWB222,
CEWB322
CEEB433
3
CEPB323
CEGB483
3
CEPB323
Application
CETB423
3
CETB412
Engineering
CESB403
Computer
Analysis
and
3
CESB333,
CESB343
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
CESB423
NONE
Continue
39
Semester
Code
CESB483
CEWB49
MALB103
MASB113
Course
Repair,
Assessment
Rehabilitation
Dam Engineering
and
Prerequisite
COEB314
3
CEPB323
NONE
NONE
NONE
NONE
NONE
International MPU Compulsory [U1]
Malay
Language
for
3
Malaysian Studies
3
*** International MPU Compulsory [U2] (Take any 1 subject)
FRAB113
Basic French
3
NONE
GERB113
Basic German
3
NONE
JAPB113
Japanese Language
3
NONE
MALB203
Malay Language II for Foreign
3
NONE
Student
MANB113
Mandarin Language
3
NONE
PKIB113
Creative Thinking
3
NONE
SPYB113
Introduction
to
Social
3
NONE
Psychology
RELB113
3
NONE
SPRB113
Sports
and
Recreation
3
NONE
Management at Workplace
HFTB113
Health and Fitness
3
NONE
ISWB113
Introduction to Social Work
3
NONE
Continuation
Corequisite
NONE
Credit
Hours
3
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
40
Bachelor of Civil Engineering (Hons.): Programme Structure for Malaysian
Students (for January Intake starting in Special Semester 2016/2017)
Semester
Code
Course
Special
Semester
1
MATB113
Advanced
Calculus
&
Analytical Geometry
Total Credit Hours
Technology
Laboratory
for Engineers I
Total Credit Hours
Semester
I
ETIB113
CECB212
CECB211
CECB113
CEMB113
CEMB111
MATB143
ICEB113/
MCEB113
Semester
II
CEMB124
CECB122
CEMB121
CEWB123
CEWB121
CEGB112
CEGB111
EHEB113
Mechanics
of
Materials
Laboratory
Mechanics of Fluids
Mechanics
of
Fluids
Laboratory
Engineering Geology
Geology Laboratory
Hubungan Etnik
Total Credit Hours
Credit
Hours
3
Prerequisite
NONE
Corequisite
NONE
3
NONE
NONE
2
NONE
CECB211
1
NONE
CECB212
3
3
1
NONE
NONE
NONE
NONE
CEMB111
CEMB113
3
2
NONE
ICEB113/
MCEB113
NONE
NONE
16
4
CECB113
CEMB121
2
1
CECB113
CECB113
NONE
CEMB124
3
1
CECB113
CECB113
CEWB121
CEWB12
NONE
NONE
NONE
CEGB111
CEGB112
NONE
6
2
1
3
17
Continue
41
Semester
Code
Semester
III
CCESB223
CEGB233
Soil Mechanics
CEGB231
Soil Mechanics Laboratory
1
CEWB222
CEWB221
Hydrology
&
Hydraulic
Islam/Moral and Civil Society
for Engineers II
Total Credit Hours
2
1
MATB133
ICEB212/
MCEB212
Semester
IV
CESB343
CEEB223
CEEB223
CESB353
CEVB213
CEVB211
AKPK111
Special
Semester
2
CEWB322
Semester
CESB333
V
CEEB313
TECB213
***
CETB322
CEGB333
CEPB323
CCSB163
Course
Introduction
to
Introduction
to
Laboratory
Personal
Financial
Management
Total Credit Hours
Literature
&
Sociology
Electives
Total Credit Hours
Credit
Hours
3
3
3
2
Prerequisite
CEMB124
CEMB124,
CEGB112
CEMB124,
CEGB112
CEWB123
CEWB123
Continuation
Corequisite
NONE
CEGB231
CEGB233
CEWB221
CEWB222
NONE
ICEB113/
MCEB113
NONE
NONE
CESB353
3
CECB212,
CESB223,
CEMB113
NONE
CEEB221
1
NONE
CEEB223
3
3
1
1
NONE
NONE
CEEB223
NONE
CEVB211
CEVB213
NONE
NONE
15
2
CEWB222
NONE
3
3
NONE
NONE
NONE
NONE
3
CECB212,
CESB223,
CEMB113
CEEB223
CESB353
CEMB113,
CEGB233
CEGB233
CESB343,
CEGB333
NONE
NONE
15
3
8
Water
&
Wastewater
Engineering
Highway Engineering
3
Project
Management
&
Construction
Engineers
Total Credit Hours
3
3
2
3
NONE
NONE
NONE
NONE
17
Continue
42
Semester
Code
Course
Semester
VI
CECB423
Engineers
CESB423
CETB412
CETB411
Project I
CEGB423
CERB412
COEB422
Special
Semester
COEB314
Total Credit Hours
Industrial Training
Semester
VIII
CERB424
Total Credit Hours
Project II
***
***
CESB493
Design Project
Total Credit Hours
Credit
Hours
3
3
2
1
3
2
2
16
4
4
4
3
3
3
Prerequisite
MATB113,
MATB143,
CCSB163
CESB343
CETB322
CETB322
Continuation
Corequisite
NONE
NONE
CETB411
CETB412
CEGB333
CESB343,
CEGB333,
CEWB322,
CEPB323
CEPB323
NONE
NONE
CESB343,
CEGB333,
70 CH
NONE
CERB412,
COEB314
NONE
CEEB313,
CETB322,
COEB314,
CESB423
NONE
NONE
13
127
CESB463
3
CESB343
CESB473
3
CESB333
CEGB493
Environmental
3
CEGB333
Geotechnology
and
CEGB463
3
CEGB333
CETB413
3
CETB322,
CETB412
CETB423
3
CETB322,
Engineering
CETB412
CEWB423
3
CEWB222,
CEWB322
CEWB433
Urban
Hydrology
&
3
CEWB222,
CEWB322
CEEB433
3
CEPB323
CEGB483
3
CEPB323
Application
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
Continue
43
Semester
Code
Course
CETB423
Engineering
Computer
Analysis
and
Repair,
Assessment
and
Rehabilitation
Dam Engineering
CESB403
CESB483
CEWB49
AKPK111
EHEB113
ICEB113/
MCEB113
ICEB212/
MCEB212
ETIB113
MLKB113
KDKB113
SPRB113
KKSB113
RELB113
PKIB113
SPYB113
MANB113
FRAB113
GERB113
JAPB113
Credit
Hours
3
3
3
CEPB323
NONE
EEEB323
NONE
EEEB373
NONE
NONE
NONE
ICEB113/
MCEB113
NONE
NONE
3
Personal
Financial
1
Management
Hubungan Etnik
3
3
3
3
Asia
Bahasa
Kebangsaan
A
3
3
3
Workplaces
3
3
Creative Thinking
3
Introduction
to
Social
3
Psychology
Mandarin Language
3
Basic French
3
Basic German
3
Japanese Language
3
Continuation
Corequisite
CESB423
Prerequisite
CETB322,
CETB412
CESB333,
CESB343
COEB314
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
44
Bachelor of Civil Engineering (Hons.): Programme Structure for International
Students (for January Intake starting in Special Semester 2016/2017)
Semester
Code
Course
Special
Semester
1
MATB113
Advanced
Calculus
&
Analytical Geometry
Malay
Language
for
Total Credit Hours
Technology
Laboratory
International
MPU
Compulsory [U2]
Total Credit Hours
Semester
I
MALB103
CECB212
CECB211
CECB113
CEMB113
CEMB111
MATB143
***
Semester
II
CEMB124
CECB122
CEMB121
CEWB123
CEWB121
CEGB112
CEGB111
Mechanics
of
Materials
Laboratory
Mechanics of Fluids
Mechanics
of
Fluids
Laboratory
Engineering Geology
Geology Laboratory
Total Credit Hours
Credit
Hours
3
Prerequisite
NONE
Corequisite
NONE
3
NONE
NONE
2
NONE
CECB211
1
NONE
CECB212
3
3
1
NONE
NONE
NONE
NONE
CEMB111
CEMB113
3
3
NONE
ICEB113/
MCEB113
NONE
NONE
16
4
CECB113
CEMB121
2
1
CECB113
CECB113
NONE
CEMB124
3
1
CECB113
CECB113
CEWB121
CEWB12
NONE
NONE
CEGB111
CEGB112
6
2
1
14
Continue
45
Code
Semester
III
CCESB223
CEGB233
Soil Mechanics
CEGB231
Soil Mechanics Laboratory
1
CEWB222
CEWB221
2
1
MATB133
TECB213
Hydrology
&
Hydraulic
Prerequisite
CEMB124
CEMB124,
CEGB112
CEMB124,
CEGB112
CEWB123
CEWB123
3
3
NONE
NONE
NONE
NONE
CESB343
Total Credit Hours
16
3
CESB353
Introduction
to
Introduction
to
Laboratory
International
MPU
Compulsory [U3]
Total Credit Hours
3
CECB212,
CESB223,
CEMB113
NONE
CEEB221
1
NONE
CEEB223
3
3
1
3
NONE
NONE
CEEB223
NONE
CEVB211
CEVB213
NONE
NONE
17
2
CEWB222
NONE
3
NONE
NONE
3
NONE
NONE
3
CECB212,
CESB223,
CEMB113
CEEB223
CESB353
CEMB113,
CEGB233
CEGB233
CESB343,
CEGB333
NONE
NONE
Semester
IV
CEEB223
CEEB223
CESB353
CEVB213
CEVB211
***
Special
Semester
2
CEWB322
***
MASB113
Semester
CESB333
V
CEEB313
CETB322
CEGB333
CEPB323
CCSB163
Course
International
MPU
Compulsory [U4]
Malaysian Study
Total Credit Hours
Credit
Hours
3
3
Continuation
Corequisite
NONE
CEGB231
Semester
CEGB233
CEWB221
CEWB222
8
Water
&
Wastewater
Engineering
Highway Engineering
3
Project
Management
&
Construction
Engineers
Total Credit Hours
3
3
2
3
NONE
NONE
NONE
NONE
17
Continue
46
Semester
Code
Course
Semester
VI
CECB423
Engineers
CESB423
CETB412
CETB411
Project I
CEGB423
CERB412
COEB422
Special
Semester
COEB314
Total Credit Hours
Industrial Training
Semester
VIII
CERB424
Total Credit Hours
Project II
***
***
CESB493
Design Project
Total Credit Hours
Credit
Hours
3
3
2
1
3
2
2
16
4
4
4
3
3
3
Prerequisite
MATB113,
MATB143,
CCSB163
CESB343
CETB322
CETB322
Continuation
Corequisite
NONE
NONE
CETB411
CETB412
CEGB333
CESB343,
CEGB333,
CEWB322,
CEPB323
CEPB323
NONE
NONE
CESB343,
CEGB333,
70 CH
NONE
CERB412,
COEB314
NONE
CEEB313,
CETB322,
COEB314,
CESB423
NONE
NONE
13
127
CESB463
3
CESB343
CESB473
3
CESB333
CEGB493
Environmental
3
CEGB333
Geotechnology
and
CEGB463
3
CEGB333
CETB413
3
CETB322,
CETB412
CETB423
3
CETB322,
Engineering
CETB412
CEWB423
3
CEWB222,
CEWB322
CEWB433
Urban
Hydrology
&
3
CEWB222,
CEWB322
CEEB433
3
CEPB323
CEGB483
3
CEPB323
Application
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
Continue
47
Semester
Code
Course
CETB423
Engineering
Computer
Analysis
and
Repair,
Assessment
and
Rehabilitation
Dam Engineering
CESB403
CESB483
CEWB49
MALB103
MASB113
Credit
Hours
3
3
3
CEPB323
NONE
NONE
NONE
NONE
NONE
3
Malay
Language
for
3
Malaysian Studies
3
FRAB113
Basic French
3
NONE
GERB113
Basic German
3
NONE
JAPB113
Japanese Language
3
NONE
MALB203
3
NONE
Student
MANB113
Mandarin Language
3
NONE
PKIB113
Creative Thinking
3
NONE
SPYB113
Introduction
to
Social
3
NONE
Psychology
RELB113
3
NONE
SPRB113
Sports
and
Recreation
3
NONE
HFTB113
Health and Fitness
3
NONE
ISWB113
3
NONE
Continuation
Corequisite
CESB423
Prerequisite
CETB322,
CETB412
CESB333,
CESB343
COEB314
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
48
• Y. Bhg. Dato’ Ho Peng Choong
Vice President (Transmission),
Tenaga Nasional Berhad
• Ir. Hj. Azhar Mohd Ali
Chief Executive Officer,
Milia Construction Sdn. Bhd
• Ir. David Ng Shiu Yuen
IEM Representative,
The Institution of Engineers, Malaysia
• Associate Prof. Dr. Taksiah A. Majid
Associate Professor,
Universiti Sains Malaysia
• Prof. Ir Dr. Mohd Sabri Abdullah
Managing Director,
DRSA Consulting Sdn Bhd
• Prof. Ir. Dr. Zuhairi Abd Hamid
Executive Director,
Construction Research Institute of Malaysia (CREAM)
• Ir. Mohd Adnan Mohd Nor
Managing Director,
RPM Engineers Sdn Bhd
• En. Mohd Abdul Fatah Endut
Chief Executive Director,
MMC Engineering Services Sdn Bhd
49
ADJUNCT PROFESSORS
• Prof. Ir. Dr. Mohd Sabri Abdullah
Managing Director,
DRSA Consulting Sdn Bhd
Education:
Ph.D. in Structural Engineering, Dundee University
M.Sc. in Engineering, Liverpool
B.Sc. in Civil Engineering, University of Strathclyde
P.Eng, C.Eng, MIEM, MIStructE, MACEM, MCSM
• Dato’ Ir. Zainor Rahim Bin Ibrahim
Director,
Director Irrigation and Drainage Malaysia,
Education:
Certified Professional in Erosion and Sediment Control, CPESC âĂŞ USA
M.Sc Irrigation Engineering, University of Southampton, United Kingdom
B.Sc. in Civil Engineering, University of Loughborough, England
Ordinary National Diploma, Oxford College of Further Education
50
EXTERNAL EXAMINERS
• Prof. Dr. Wang Chien Ming
Professor
National University of Singapore
Education:
Ph.D., Monash University, Australia
M.Eng.Sc., Monash University, Australia
B.Eng. (First Class Honours), Monash University, Australia
51
FACULTY MEMBERS
HEAD OF DEPARTMENT
Ir. Zakaria bin Che Muda
Education:
• M.Sc. (Structural Engineering) (University of Manchester Institute
of Science and Technology, United Kingdom)
• B.Eng. (Hons.) in Civil & Structural Engineering (University of
Bradford, United Kingdom)
• Ordinary National Diploma in Civil Engineering (Cambridgeshire
College of Arts & Technology United Kingdom)
• P.Eng, MIEM, MSET, IAENG
Area
of
specialization
/
research
interest:
• Optimization and Artificial Intelligence in Structural Design
• Finite Element Method
• Structural Assessment and Rehabilitation
• Forensic Engineering in Structures
Office:
Phone ext.:
Email:
BN-2-028
2272
[email protected]
52
HEAD OF ACADEMIC UNITS
Structure and Material
Dr. Md. Ashraful Alam
Education:
• Ph.D. (Structural Engineering) (University of Malaya)
• M.Eng.Sc. (Structure) (University of Malaya)
• B.Sc. in Civil Engineering (Bangladesh University of Engineering and
Technology)
Area
of
specialization
/
research
interest:
• Repair and strengthening of RC structures
• Non-linear analysis of structures for static and fatigue load
• Earthquake effects on reinforced concrete and steel structures
• Green fibre composite materials
Office:
Phone ext.:
Email:
BN-1-062
7292
[email protected]
Geotechnical and Highway
Associate Prof. Dr. Lee Choon Yong
Education:
• Ph.D (Geotechnical Engineering) (Sydney, Australia)
• M.Sc (Geotechnical Engineering), (Massachusetts, USA)
• B.Sc. in Civil Engineering (Wales, UK)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Geotechnical Engineering
• Foundation Engineering and Modelling of Geomechanics
BN-3-069
7288
[email protected]
53
Water and Environmental Engineering
Dr. Ahmed Hussein Birima
Education:
• Ph.D. (Sanitary and Environmental Engineering) (Universiti Putra
Malaysia)
• M.Sc. (Civil Engineering) (Universiti Putra Malaysia)
• B.Sc. in Civil Engineering (Al- Fatih University, Libya)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Water and Wastewater treatment
BN-3-014
7288
[email protected]
HEAD OF UNITS
External Relations
Mohd Sufian bin Abdul Karim
Education:
• M.B.A. (General Management) (University of Malaya)
• M.Sc. (Highway and Transport Engineering) (Universiti Putra
Malaysia)
• B.Eng. in Civil Engineering (Concordia University, Canada)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Entrepreneurship Education
• TRIZ Inventive Problem Solving
• Business & Project Management
BN-0-011
7258
[email protected]
54
Academic Programme
Dr. Salmia binti Beddu
Education:
• Ph.D. (Civil Engineering) (Universiti Teknologi Petronas)
• M.Sc. (Structural Engineering) (Universiti Sains Malaysia)
• B.Eng. (Hons) Civil Engineering (Universiti Sains Malaysia)
Area
of
specialization
/
research
interest:
• Sustainable Construction Materials
• Concrete Technology
• Geopolymer Concrete
• Self-compacting concrete
• Light-Weight Concrete
• Ductile Concrete
• Repair and Retrofitting of Structures
Office:
Phone ext.:
Email:
BN-2-037A
6219
[email protected]
Staff & Student Affairs
Dr. Nur Irfah Mohd Pauzi
Education:
• Ph.D. (Geotechnical and Geological Engineering) (Universiti Putra
Malaysia)
• M.Sc. (Geotechnical and Geological Engineering), (Universiti Putra
Malaysia)
• B.Eng. in Civil Engineering (Universiti Tenaga Nasional)
Area
of
specialization
/
research
interest:
• Waste soil settlement modelling
• Monte Carlo simulation
• Soil laboratory testing
• Microcrack Propagation of Rock
• Integrated Civil Engineering Capstone Design
Office:
Phone ext.:
Email:
BN-3-061
2271
[email protected]
55
PROFESSORS/ READERS
Prof. Ir. Dr. Kamal Nasharuddin Mustapha
(Vice Chancellor)
Education:
• Ph.D. (Structural - Fire Engineering) (University of Aston, United
Kingdom)
• M.Sc. (Structural Engineering) (Heriot-Watt University, United
Kingdom)
• B.Eng. (Hons). in Civil and Structural Engineering (University of
Sheffield, United Kingdom)
• P.Eng, MIEM, ASEAN Eng., APEC Eng., IntPE (My), MCSM, mSET
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Structural Engineering - Fire Engineering
• Forensic Engineering
BA-4-080
7302
[email protected]
Ir. Zakaria bin Che Muda
Education:
• M.Sc. (Structural Engineering) (University of Manchester Institute
of Science and Technology, United Kingdom)
• B.Eng. (Hons.) in Civil & Structural Engineering (University of
Bradford, United Kingdom)
• Ordinary National Diploma in Civil Engineering (Cambridgeshire
College of Arts & Technology United Kingdom)
• P.Eng, MIEM, MSET, IAENG
Area
of
specialization
/
research
interest:
• Optimization and Artificial Intelligence in Structural Design
• Structural Assessment and Rehabilitation
• Forensic Engineering in Structures
Office:
Phone ext.:
Email:
BN-2-028
2272
[email protected]
56
Prof. Ir. Dr. Lariyah Mohd Sidek
(Director, Research Management Centre)
Education:
• Ph.D. (Water Resources Engineering - Urban Drainage) (Kyoto
University, Japan)
• M.Sc. in Civil Engineering (Hydrology) (University of NewcastleUpon-Tyne, United Kingdom)
• B.Sc. in Civil Engineering (University of Pittsburgh, United States of
America)
• P.Eng., MIEM, MIWA, MIAHS, MMHS, MMANCID, MAPHW, MMWP
Area
of
specialization
/
research
interest:
• Hydrology
• Urban Drainage
• Stormwater Management
• Stormwater Treatment Technology
• Flood Modelling
• Dam Break Analysis and Water Resources Engineering
Office:
Phone ext.:
Email:
BJ-1-016
7289
[email protected]
57
Associate Prof. Ir. Dr. Marlinda Bt. Abdul Malek
Education:
• Ph.D. (Water Resources) (Universiti Teknologi Malaysia)
• M.Sc. (Water Resources) (University of East London, United
Kingdom)
• B.Eng. in Civil Engineering (Universiti Teknologi Malaysia)
• P.Eng. FIEM
Area
of
specialization
/
research
interest:
• Water Resources Engineering
• Hydrology, Artificial Intelligence
• Statistics
• Hydro-Atmospheric Modelling
• Radar
• Greenhouse Gas Inventory and Climate Change
Office:
Phone ext.:
Email:
BN-0-026
7205
[email protected]
Associate Prof. Dr. Lee Choon Yong
Education:
• Ph.D (Geotechnical Engineering) (Sydney, Australia)
• M.Sc (Geotechnical Engineering), (Massachusetts, USA)
• B.Sc. in Civil Engineering (Wales, UK)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Foundation Engineering and Modelling of Geomechanics
BN-3-069
7288
[email protected]
58
Associate Prof. Dr. Mohamed Ahmed Hafez Ahmed
Education:
• Ph.D (Ground Improvement Engineering) (University of Malaya)
• M.Sc. (Coastal Engineering), (University of Malaya)
• B.Sc. in Civil Engineering (Alexandria- Egypt)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Ground Improvement Engineering and Coastal Engineering
BN-3-087
6228
[email protected]
Associate Prof. Dr. Sivakumar Naganathan
Education:
• Ph.D. (Concrete Technology) (University of Malaya)
• M.Eng. (Structural Engineering) (National Institute of Technology,
Bharatidasan University, India)
• B.Eng. (Hons) in Civil Engineering (National Institute of Technology,
Bharatidasan University, India)
• Dip. in Civil Engineering (S.S. Polytechnic, India)
Area
of
specialization
/
research
interest:
• Concrete materials
• Self-Compacting Concrete
• Waste Utilization
Office:
Phone ext.:
Email:
BN-3-024
2257
[email protected]
Mohd Sufian bin Abdul Karim
Education:
• M.B.A. (General Management) (University of Malaya)
• M.Sc. (Highway and Transport Engineering) (Universiti Putra
Malaysia)
• B.Eng. in Civil Engineering (Concordia University, Canada)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Entrepreneurship Education
• TRIZ Inventive Problem Solving
• Business & Project Management
BN-0-011
7258
[email protected]
59
Dr. Chua Kok Hua
(Strategic Planning & Quality Centre)
Education:
• Ph.D. (Water Engineering) (Dublin)
• M.Eng.Sc. (Water Engineering) (Dublin)
• B.Sc. (Hons.) in Civil Engineering (Glasgow)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Wastewater and water treatment
• Climate change
• Disaster management
BA 2-006W / BN-1-036
5578/ 7228
[email protected]
Assoc. Prof. Dr. Rohayu Che Omar
(UNITEN R&D Sdn Bhd)
Education:
• Ph.D. (Environment & Development) (Universiti Kebangsaan
Malaysia)
• M.Sc. (Engineering Geology) (Universiti Kebangsaan Malaysia)
• B.Sc. (Hons.) in Geology (Universiti Kebangsaan Malaysia)
Area
of
specialization
/
research
interest:
• Site Investigation, Rock Engineering & Engineering Geology
• Slope Risk Assessments
• Geophysics in Civil Engineering Application
• Geography Information System
Office:
Phone ext.:
Email:
BN-3-008
2288/6239
[email protected]
60
SENIOR LECTURERS
Lt. Dr. Sivadass a/l Thiruchelvam
(Assistant Vice-Chancellor)
Education:
• Ph.D. (Industrial Engineering) (AUT University, New Zealand)
• Master in Civil Engineering (Universiti Tenaga Nasional)
• B.Eng. (Hons.) in Civil Engineering (Universiti Teknologi Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Operations Management
• Industrial Health and Safety
• Disaster Management
BN-0-008
7216
[email protected]
Dr. Fathoni Usman
Education:
• Ph.D. (Structure and Materials) (Universiti Teknologi Malaysia)
• M.Eng. (Structural Engineering) (Universiti Teknologi Malaysia)
• PG.Dipl. in Computer Science (Universiti Teknologi Malaysia)
• B.Eng. in Civil Engineering (Universitas Sriwijaya, Indonesia)
Area
of
specialization
/
research
interest:
• Structure and Materials
• Structural Health Monitoring and Forensic Engineering
• Artificial Intelligent and Computational in Civil Engineering
• Industrial Building System
• Sustainable Construction
Office:
Phone ext.:
Email:
BN-3-071
7225
[email protected]
61
Dr. Ahmed Hussein Birima
Education:
• Ph.D. (Sanitary and Environmental Engineering) (Universiti Putra
Malaysia)
• M.Sc. (Civil Engineering) (Universiti Putra Malaysia)
• B.Sc. in Civil Engineering (Al- Fatih University, Libya)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Water and Wastewater treatment
BN-3-014
2243
[email protected]
Dr. Ir. Norlela Ismail
Education:
• M.Sc. (Highway & Transportation Engineering) (Universiti Putra
Malaysia)
• B.Sc. in Civil Engineering (University of Hartford, United States of
America)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Highway & Transportation Engineering
• Pavement Management System
BN-3-056
2286
[email protected]
Dr. Wong Leong Sing
(Postgraduate Coordinator)
Education:
• Ph.D. (Geotechnical Engineering) (University of Malaya)
• M.Eng. (Chemical) (Universiti Kebangsaan Malaysia)
• M.Eng. (Civil-Geotechnics) (Universiti Teknologi Malaysia)
• B.Eng. (Hons) Civil Engineering (Universiti Malaysia Sarawak)
Area
of
specialization
/
research
interest:
• Peat Stabilization
• Soil Bioremediation
• Environmental Geotechnics
• Biodiesel Process Simulation
Office:
Phone ext.:
Email:
: BA-4-023
7250
[email protected]
62
Dr. Salmia binti Beddu
Education:
• Ph.D. (Civil Engineering) (Universiti Teknologi Petronas)
• M.Sc. (Structural Engineering) (Universiti Sains Malaysia)
• B.Eng. (Hons) Civil Engineering (Universiti Sains Malaysia)
Area
of
specialization
/
research
interest:
• Geopolymer Concrete
• Self-compacting concrete
• Light-Weight Concrete
• Ductile Concrete
• Repair and Retrofitting of Structures
Office:
Phone ext.:
Email:
BN-2-037A
6219
[email protected]
Dr. Md. Ashraful Alam
Education:
• Ph.D. (Structural Engineering) (University of Malaya)
• M.Eng.Sc. (Structure) (University of Malaya)
• B.Sc. in Civil Engineering (Bangladesh University of Engineering and
Technology)
Area
of
specialization
/
research
interest:
• Repair and strengthening of RC structures
• Non-linear analysis of structures for static and fatigue load
• Earthquake effects on reinforced concrete and steel structures
• Green fibre composite materials
Office:
Phone ext.:
Email:
BN-1-062
7292
[email protected]
63
Dr. Yuzainee Md Yusoff
Education:
• Ph.D
• M.Sc. (Pure Mathematics) (Universiti Kebangsaan Malaysia)
• Dip. Ed. (Mathematics) (Universiti Kebangsaan Malaysia)
• B.Sc. (Mathematics) (Arkansas State University)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Engineering Education
BA-3-067
7243
[email protected]
Dr. Nur Irfah Mohd Pauzi
Education:
• Ph.D. (Geotechnical and Geological Engineering) (Universiti Putra
Malaysia)
• M.Sc. (Geotechnical and Geological Engineering), (Universiti Putra
Malaysia)
• B.Eng. in Civil Engineering (Universiti Tenaga Nasional)
Area
of
specialization
/
research
interest:
• Waste soil settlement modelling
• Monte Carlo simulation
• Soil laboratory testing
• Microcrack Propagation of Rock
• Integrated Civil Engineering Capstone Design
Office:
Phone ext.:
Email:
BN-3-061
2271
[email protected]
Dr. Mohd Hafiz bin Zawawi
Education:
• Ph.D. in Water Pump Modeling (Universiti Sains Malaysia)
• M.Sc. in Environmental Engineering (Universiti Sains Malaysia)
• B.Eng. (Hons.) in Civil Engineering (Universiti Sains Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Groundwater Hydrology and Contamination
• Solid Waste Management and Water Resources
BN-3-030
7245
[email protected]
64
Dr. Chow Ming Fai
Education:
• Ph.D. in Civil Engineering (Universiti Teknologi Malaysia)
• B.Eng. (Hons.) in Civil Engineering (Universiti Teknologi Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Urban stormwater management, hydrology, non point source
pollution, limnology
BN-3-022
6454
[email protected]
Dr. Gasim Hayder Ahmed Salih
Education:
• Ph.D. (Civil Engineering), (Universiti Teknologi Petronas)
• M.Sc. (Environmental Engineering), (Universiti Putra Malaysia)
• B.Sc. Hons (Civil Engineering), (Omdurman Islamic University,
Sudan)
Area
of
specialization
/
research
interest:
• Environmental Engineering
• Wastewater treatment
• iological processes
• Solid Waste Management
Office:
Phone ext.:
Email:
BN-3-049
6348
[email protected]
Dr. Md. Shabbir Hossain
Education:
• Ph.D (Artificial Intelligences in Water Resources Management)
(Universiti Kebangsaan Malaysia)
• M.Eng. (Civil Engineering), (Universiti Kebangsaan Malaysia)
• B.Sc. in Civil Engineering (RUET, Bangladesh)
Area
of
specialization
/
research
interest:
• Water Resource Management
• Optimization
• Swarm Intelligences
• Neural Network and Evolutionary Algorithm
Office:
Phone ext.:
Email:
BN-0-009
6223
[email protected]
65
Dr. Chai Mee Kin
Education:
• Ph.D. (Analytical Chemistry) (University of Malaya)
• M.Sc. (Chemistry), (Universiti Teknologi Malaysia)
• B.Sc. in Science with Education (Universiti Teknologi Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Analytical Chemistry
• Trace Analysis on Environmental Samples
BA-3-039
7275
[email protected]
Dr. Zaemah Jubri
Education:
• Ph.D. (Material Chemistry) (Universiti Putra Malaysia)
• M.Sc.
(Natural Product Chemistry) (Universiti Kebangsaan
Malaysia)
• B.Sc. (Chemistry) (Universiti Kebangsaan Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Organic-Inorganic Nanocomposite Material
BA-3-038
7253
[email protected]
Dr.-Ing. Zarina Itam
Education:
• Doctor Engineering
Germany)
(Ph.D)
(Bauhaus-Universitaet
Weimar,
• M.Sc. (Structural Engineering and Construction) (Universiti Putra
Malaysia, Malaysia)
• B.Eng. (Hons.) in Civil Engineering (Universiti Sains Malaysia,
Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Material Modeling, Structural Mechanics
BN-3-042
2249
[email protected]
66
Dr. Agusril
Education:
• Ph.D (Civil Engineering, Universiti Pertahanan Nasional Malaysia,
Malaysia)
• M.Sc. Civil Engineering, Universiti Pertahanan Nasional Malaysia,
Malaysia)
• B.Eng. in Civil Engineering (Universitas Andalas, Indonesia)
Area
of
specialization
/
research
interest:
• Finite Element Modelling
• Portable Bridges Development
• Structure and Materials
• Impact Resistance Structures
• Blast Resistance Structure
Office:
Phone ext.:
Email:
BN-3-022
6450
[email protected]
Dr. Faizah Che Ros
Education:
• Ph.D (Systems Innovation) (University of Tokyo, Japan)
• B.Eng. (Hons) in Civil Engineering (Universiti Tenaga Nasional)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Hydrology, Hydraulics
• Dam Break & Flood Modelling
BN-1-009
2249
[email protected]
Dr. Al-Mahfoodh Ali Najah Ahmed
Education:
• Ph.D (Artificial Intelligences in Water Resources Management)
(Universiti Kebangsaan Malaysia)
• M.Eng. (Civil Engineering), (Universiti Kebangsaan Malaysia)
• B.Sc. in Civil Engineering (University of technology, Iraq)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Water resources engineering
• Sustainable infrastructure and natural resources management
• Mathematical Modelling utilizing Artificial Intelligence Techniques
BN-3-033
6259
[email protected]
67
LECTURERS
Intan Nor Zuliana Binti Baharuddin
Education:
• M.Sc. (Civil Engineering in Geotechnical) (Universiti Teknologi
MARA)
• B.Eng. (Hons) (Civil Engineering) (Universiti Teknologi Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Slope Stability
• Unsaturated Soil Mechanics
BN-3-009
2215
[email protected]
Ean Lee Woen
Education:
• B. Eng. (Hons) in Civil Engineering (Universiti Tenaga Nasional)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Structural & Materials Engineering
BN-0-005
7231
[email protected]
Hidayah Basri
Education:
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Flow forecasting, hydrology, dam safety and urban strom water
management
BN-2-035A
6210
[email protected]
68
Nor Hazwani binti Nor Khalid
Education:
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Engineering investigation, project management, slope monitoring,
slope instrumentation
• Geographical Information System (GIS) and Remote Sensing
BN-0-020
2247
[email protected]
Norshahida Rahman
Education:
• M.Sc. in Applied Mathematics (Universiti Kebangsaan Malaysia)
• B.Sc.
(Honour) in Pure Mathematics (Universiti Kebangsaan
Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Digital Signature (Cryptography)
• Mathematics Education
BN-1-061
2291
[email protected]
Daud Bin Mohamad
Education:
• M.Sc. in Civil Engineering (Construction) (Universiti Teknologi
MARA)
• B. Eng. (Hons.) in Civil Engineering (Universiti Teknologi MARA)
• Dip. in Civil Engineering (Universiti Teknologi MARA)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Construction / Project Management /Safety
BN-3-044
2259
[email protected]
69
Mohd Zakwan bin Ramli
Education:
• M.Eng. in Civil Engineering (Universiti Tun Hussein Onn Malaysia)
• B.Eng. (Hons.) in Civil Engineering (Universiti Tun Hussein Onn
Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Transportation Engineering & Planning
: BN-3-051
2296
[email protected]
Nur Liyana Binti Mohd Kamal
Education:
• M.Sc. in Civil Engineering (Universiti Teknologi Petronas)
• B.Eng. (Hons) in Civil Engineering (Universiti Teknologi Malaysia)
• Dip. in Civil Engineering (Universiti Teknologi Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
: BN-3-028
6246
[email protected]
Wong Jee Khai
Education:
• M.Eng.
(Transportation Engineering), (Universiti Kebangsaan
Malaysia)
• B.Eng. (Hons) in Civil & Environmental Engineering, (Universiti
Kebangsaan Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Transportation Engineering
• Environmental Engineering
: BN-3-062
6302
[email protected]
70
Saliza Bt Baharudin
Education:
• M.Sc. (Mathematics), (Universiti Kebangsaan Malaysia)
• B.Eng. (Honours) Electronics (Multimedia University)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Cryptography
: BN-3-058
2292
[email protected]
Herda Yati Katman
Education:
• M.Eng.Sc. (Highway & Traffic Engineering) (University of Malaya)
• B.Eng. (Hons.) in Civil Engineering (University of Malaya)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Highway and Traffic Engineering
• avement Materials
On study leave
On study leave
[email protected]
Herda Yati Katman
Education:
• M.Eng.Sc. (Highway & Traffic Engineering) (University of Malaya)
• B.Eng. (Hons.) in Civil Engineering (University of Malaya)
Area
of
specialization
/
research
interest:
Office:
Email:
• Highway and Traffic Engineering
• avement Materials
On study leave
[email protected]
71
Shuhairy Norhisham
Education:
• Master of Highway and Transportation Engineering (Universiti Putra
Malaysia)
• B.Eng. (Hons) in Civil Engineering (Universiti Tenaga Nasional)
• BEM, Grad. IEM, mSET, TSSM, AERYE
Area
of
specialization
/
research
interest:
• Transportation and Traffic Engineering
• Parking Facilities and Management
• Public Transportation
Office:
Email:
BN-0-23
[email protected]
Siti Aliyyah Masjuki
Education:
• Master of Structural Engineering and Constructions (Universiti Putra
Malaysia)
Area
of
specialization
/
research
interest:
Office:
Email:
• Structural & Materials Engineering
On study leave
[email protected]
Nazirul Mubin Bin Zahari
Education:
• M.Sc. in Civil Engineering (Universiti Tenaga Nasional)
• B. Eng. (Hons.) in Civil Engineering (Universiti Teknologi MARA)
• Dip. in Civil Engineering (Universiti Teknologi MARA)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Environmental, Wastewater, Air and Noise Pollution
BN-3-034
6305
[email protected]
72
Rasyikin Roslan
Education:
• B.Eng. (Hons.) in Civil Engineering (Universiti Tenaga Nasional)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Geology and Geotechnical engineering, forensic engineering, risk
assessment, and subsurface investigation
BN-3-066 / BM-3-015
6239
[email protected]
73
COURSE DESCRIPTIONS
Credit Hour Coding Information:
The last digit in the course code denotes the number of credit hours, e.g.
• CECB113 MECHANICS I : STATICS
Pre-requisite : None
Co-requisite: None Fundamental concepts of mechanics, force systems and
couples, free body diagrams, and equilibrium of particles and rigid bodies.
Distributed forces; centroids and centre of gravity of lines, areas, and volumes.
Second moment of area, volumes, and masses. Principle axes and principle
moment of inertia. Friction and the laws of dry friction. Introduction to
kinematics of particles. Application to structures and machine elements, such as
bars, beams, trusses and friction devices.
• CEGB112 ENGINEERING GEOLOGY
Co-requisite : CEGB111
Physical geology: Minerals. Igneous rocks, Sedimentary rocks and Metamorphic
rocks.
Geologic time.
Plate Tectonics and mountain building process.
Engineering geology: Stratigraphy. Geologic structures. Surface processes:
weathering, erosion and soil. Groundwater. Geologic materials used in
construction. Site investigation and engineering geological maps.
• CEMB113 CIVIL ENGINEERING MATERIALS
Co-requisite : CEMB111
Cement: types of cement, Portland cement, production, composition,
characteristics, tests on cement properties.
Aggregates: classification,
characteristics, gradation, strength, tests on aggregate properties. Concrete:
concrete mix, tests for fresh concrete mix, workability of fresh concrete,
shotcrete, concrete admixtures, strength of concrete, aspects of hardened
concrete, tests for hardened concrete. Bituminous materials: asphalt refining,
uses and properties; asphalt cement physical tests, asphalt cement grading
system, rheological properties and pavement performance.
Steel: steel
74
classifications, production, properties, types of steel used in the construction
industry. Timber: timber classification, production, properties, types of timber
used in the construction industry.
• CEMB124 MECHANICS OF MATERIALS
Pre-requisite : CECB113
Co-requisite : CEMB121
Concepts of stress, strain; equations of equilibrium and compatibility;
mechanical properties; stress strain laws; extension; torsion; and bending of
bars; beam theory; combined stresses; columns and selected topics.
• CECB122 MECHANICS II: DYNAMICS
Pre-requisite : CECB113
Co-requisite : None
The objective of this course is to develop skills in treating the dynamic analysis
of structural systems.
• CEVB213 SURVEYING FOR ENGINEERS
Co-requisite : CEVB211
Surveying concepts : principles and use of surveys, geodetic survey, plane survey,
operations in surveying, units of measurements, drawing of surveying. Basic
survey measurements: observations and errors, distance measurements, vertical
distance measurements (leveling), angle and direction measurement, combined
distance and angular measurement. Survey operations: traverse, methods for
horizontal positioning, global positioning system. Type of surveys: control and
topographic surveying, route surveying, construction surveying, land surveys ,
curve ranging: horizontal curve, vertical curve.
• CEWB123 MECHANICS OF FLUIDS
Pre-requisite : CECB113 OR MEMB213
Co-requisite : CEWB121
Fluid as continuum, velocity filed, fluid statics, conservation laws for systems
and control volumes, dimensional analysis and similarity, viscous flow,
boundary layers, incompressible flow, compressible flow, open channels and
turbo-machinery.
75
• CECB212 CIVIL ENGINEERING DRAFTING TECHNOLOGY
Co-requisite : CECB211
Graphic language, engineering drawing and drafting, general principles,
drawing equipments and media, basic line works, lettering, dimensioning and
scales.
Views, sections and conventions, shape description by views;
orthographic projections; isometric projections and drawings; auxiliary views;
sections; perspective views, one-point and two-point perspective.
Civil
engineering drawings, symbols and abbreviations, plans, sections and structural
grids, working drawings, structural key-plan, reinforcement detailing, structural
steel detailing. Computer-aided drawing and drafting, preparation of drawing
using computer program, e.g., AutoCAD.
• CEEB313 WATER & WASTEWATER ENGINEERING
Pre-requisite : CEEB223
Co-requisite: None
Water supplies: water quantity, surface water supplies, reservoirs, groundwater.
Water treatment systems. Physical treatment processes: screening, mixing and
flocculation, clarification and sedimentation of discrete particles, filtration.
Chemical treatment processes: chemical considerations, water softening, iron
and manganese removal, chemical disinfection, taste and odour, Wastewater
engineering: characteristic of wastewater, screening, primary treatment ,
secondary treatment, aeration system, sludge treatment, disposal of sludge
• CEGB233 SOIL MECHANICS
Pre-requisite : CEMB124 & CEGB112
Co-requisite : CEGB211
Origins and composition of soil. Classification of soils for engineering purposes.
Basic physical properties of soils. Groundwater, pore pressure and effective
stress. Soil permeability and seepage: coefficient of permeability, seepage
velocity and seepage pressure, constant head and falling head tests, field
permeability tests, two dimensional flow, flow net, seepage through earth dam
and embankments, seepage in anisotropic soils, instability due to seepage and
dewatering excavations. Measurement of shear strength: shear strength and
friction model, shear box test, triaxial compression test, variations in undrained
strength, sensitivity of clays, pore pressure coefficients A and B, shear vane test
and estimates of shear strength parameters from index tests. Consolidation
theory: oedometer test, void ratio-pressure plots, normally consolidated and
overconsolidated clays. Site investigation and in-situ testing. Laboratory and
field testing of soils.
• CEPB323 PROJECT MANAGEMENT & CONSTRUCTION
Pre-requisite : CESB343, CEGB333
Co-requisite: None
Principles of management: planning and decision making, organizing, leading
76
and leadership and controlling.
Project management: characteristics of
projects, engineering economic analysis, project screening and selection,
structuring the project, project scheduling, project budget, project control,
computer support and project termination. Construction engineering: civil
engineering construction processes, methods and techniques : construction
contracts, construction machinery and equipment and construction safety.
• CESB223 STRUCTURAL ANALYSIS I
Pre-requisite: CEMB124
Co-requisite: None
Fundamental concepts: forces, actions and reactions; free-body diagrams,
equilibrium, and internal loading (Shear, axial and bending moments )
flexibility, compatibility, boundary conditions, work and energy, virtual work,
energy methods. Statically determinate structures: statically determinacy and
stability; reaction forces for planar and non-planar structures; Cables and
arches ; truss deflections by energy methods; Deflection by moment area
method, .Conjugate beam method and Castigilianos theorem. Analysis of
indeterminate structures using the force method of analysis and three moment
equation for 1st and 2nd degree indeterminate structures.
• CESB333 STRUCTURAL STEEL DESIGN I
Pre-requisite : CECB212, CESB223, CEMB113
Co-requisite: CESB353
Methods of analysis, limit state approach, general members, design of members
subjected to bending, design of members subjected to combined actions, design of
connections, design of members subjected to axial tension, design of multistorey
buildings.
• CETB322 HIGHWAY ENGINEERING
Pre-requisite : CEMB113 & CEGB213
Co-requisite: None
Highway geometric design; pavement materials, design, maintenance and
rehabilitation; and highway intersection analysis, design and control.
• CETB412 TRANSPORTATION ENGINEERING
Pre-requisite: CETB322
Co-requisite: NONE
Transportation systems, modes of transportation, transportation organizations
and management, transportation planning and demand analysis, transportation
impact assessment, sustainable transportation, intelligent transportation system,
principles of traffic flow, traffic management, traffic engineering studies, level
of service and capacity, and characteristics of the driver, pedestrian, vehicle and
road.
77
• CEWB222 HYDRAULIC ENGINEERING
Pre-requisite : CEWB123
Co-requisite : CEWB221
Hydraulic Engineering follows the introductory Fluid Mechanics subject in the
Water Engineering strand. It aims to consolidate students’ knowledge of fluid
principles, and to cover principles of open channel flow and pipe flow. The
course introduces the open channel flow and its classification, properties,
energy and momentum principles, Uniform flow, Critical flow, Design of
Channels for Uniform flow, Gradually Varied flow, Rapidly varied flow and
Hydraulic Structures. On completion, students will have a deeper knowledge of
fluid flow principles, and a proficiency in solving problems and performing
design calculations for open channel flow systems and pipe flow systems using
Chapter 25 and Chapter 26 of MSMA Manual.
• CEWB322 HYDROLOGY ENGINEERING
Pre-requisite : CEWB222
Co-requisite : NONE
Hydrologic cycle, precipitation, infiltration, evaporation and transpiration,
streamflow, hydrologic measurement and monitoring, runoff and catchment,
statistics and frequency distribution and analysis, hydrographs, unit
hydrograph, groundwater hydrology, rainfall - runoff relationship and
hydrologic modelling, design rainfall and streamflow estimation.
• CEGB423 FOUNDATION ENGINEERING I
Pre-requisite : CEGB333
Co-requisite: None
Shallow Foundations: ultimate bearing capacity and settlement of shallow
foundations, and mat foundations. Retaining walls: gravity and cantilever
walls. Sheet pile walls: cantilever and anchored sheet pile walls. Braced cuts:
design of various components of a braced cut and soil heave problem. Pile
foundations: type of piles, length of piles, pile capacity, pile driving formulas,
pile load tests, laterally loaded pile, pullout resistance of pile, negative skin
friction, pile groups and spacing of piles, efficiency of pile groups, settlement of
pile foundations and construction of pile foundations. Drilled shafts: types of
drilled shafts, construction procedures, drilled shaft capacity, settlement of
drilled shaft.
• CEGB493 ENVIRONMENTAL GEOTECHNOLOGY & GEOTECHNICAL
MODELING
Pre-requisite: CEGB333
Co-requisite: None
This course exposes students with sufficient knowledge of environmental
geotechnology, and enables them to be skilful at performing finite element
simulation to model and analyze environmental geotechnical problem. Students
will be introduced with the basic principles and applications of environmental
78
geotechnology before they learn how to use PLAXIS Professional version
software to perform environmental geotechnical simulation. Topics covered
include Geotechnics and the environment, Ground investigation, Waste disposal
by landfill, Contaminated land, Derelict land, Waste materials in geotechnical
construction, Noise and ground vibrations, Radioactive waste disposal, and
Introduction to PLAXIS for environmental geotechnical application.
• CERB412 PROJECT I
Pre-requisite : CESB343 OR CEGB213 OR CEWB322 OR CEPB323
Co-requisite: None
Students select a civil engineering project or one that is suggested by faculty
members and work under the supervision of faculty members. Problems from all
areas of civil engineering can be considered. The studies for projects may involve
construction and assemblies of structures.
• ERB424 PROJECT II
Pre-requisite : CERB412, COEB314
Co-requisite: None
Students select a civil engineering project or one that is suggested by faculty
members and work under the supervision of faculty members. Problems from all
areas of civil engineering can be considered. The studies for projects may involve
construction and assemblies of structures.
• CESB353 STRUCTURAL ANALYSIS II
Pre-requisite : CESB223
Co-requisite: None
Fundamentals of statically indeterminate analysis: requirements and limitations
of equilibrium; redundancies, requirements and limitations of compatibility;
compatibility method (flexibility method) of analysis; equilibrium method
(stiffness method) of analysis. Flexibility method: fundamental concepts of
flexibility method; structure and member coordinate systems; member
flexibility matrix; generation of structure flexibility matrix; application of the
flexibility method; internally redundant structures; choice of redundants.
Stiffness method: fundamental concepts of stiffness method; coordinate
systems; member stiffness matrix; generation of structure stiffness matrix;
application of stiffness method; comparison between flexibility and stiffness
methods. stiffness and flexibility for differential element; relationship between
stiffness and flexibility matrices; determination of flexibility coefficients;
determination of stiffness coefficients
• CESB343 REINFORCED CONCRETE DESIGN I
Pre-requisite: CECB212, CESB223, CEMB113
Properties of concrete and reinforcement, service load behaviour, ultimate
flexural strength design of rectangular and flanged beams , shear design, bond
79
and development length, continuous beams, design for serviceability, design for
durability and fire resistance, reinforced concrete slab systems.
• CESB423 REINFORCED CONCRETE DESIGN II
Co-requisite: None
Reinforced concrete slab systems, design of columns, design of tied and spiral
columns, slenderness effects, and foundations including, pad footing, combined
footing, strip footing, raft foundation and pile caps and introduction to
prestressed concrete.
• CESB493 INTEGRATED CIVIL ENGINEERING DESIGN PROJECT
Pre-requisite : CEEB313, CETB322, COEB314, CESB423
Co-requisite: None
This course serves as a capstone design project for Civil Engineering students. It
is a team design project applying engineering and project management
principles for a multidisciplinary design which involve an integration of all
aspects of Civil Engineering namely Environmental, Geotechnical, Water
Supply, Sewerage, Structural, Transportation and Project Management, with the
design process from conceptual and preliminary design to final design for
construction purposes. It requires that each student demonstrate the ability to
complete a significant engineering design using the knowledge gained as an
undergraduate in the Civil Engineering program.
Students have to develop proposal for engineering design and organization of
the design team, proposal for infrastructural work and civil work shall include
earthwork, water supply and reticulation, sewerage system and reticulation,
drainage system, selection and proportioning of structural systems, foundation
design and cost estimates of the development. Given the scope of the task,
success will hinge on the ability of the students to work independently on
components of the overall design, yet be able to work cooperatively within a
design team.
• CECB423 NUMERICAL METHODS FOR CIVIL ENGINEERS
Pre-requisite : MATB113, MATB143 AND CCSB163
Co-requisite: None
Numerical methods. Non-linear equations. Solution of systems of linear
algebraic equations. Curve fitting. Numerical differentiation and integration.
Numerical solutions of ordinary and partial differential equations. Eigenvalue
problems.
• CEEB223 INTRODUCTION TO ENVIRONMENTAL ENGINEERING
Pre-requisite : NONE
Co-requisite : CEEB221
Engineering and the environment; overview of environmental issues; surface
80
water quality and monitoring; drinking water standards; effluent standard;
water treatment technologies; wastewater treatment technologies; sludge
disposal; air pollution control; noise pollution control; solid waste
management; hazardous management; project planning and environmental
impact assessment and studies.
• CEGB463 FIELD AND ROCK ENGINEERING
Pre-requisite : CEGB333
Co-requisite: None
Description and classification of soils and rocks; Site Investigation; Borehole and
In situ Testing; Rock Engineering; Rock Testing; Rock Tunnel & Rock Excavation
Technique.
• CESB463 ANALYSIS & DESIGN OF CIVIL ENGINEERING STRUCTURES
Co-requisite: None
Analysis of reinforced concrete frames and application of wind loading , design
of staircase and slab using yield line theory, Slender column design, foundation
subjected to axial load and moment, and edge foundation ( strap and strip footing
), and pretress concrete ( Magnel diagram).
• CESB473 STRUCTURAL STEEL DESIGN II
Co-requisite: None
Continuous structures, plastic analysis, in-plane and out-of-plane stability for
plastic analysis; plastic design of continuous beams and frames. Multi-story
rigid frames, stability of frames. Plate girders; shear buckling resistance, web
openings, design of stiffeners. Thin-walled steel structures, effective width
method, design of thin-walled members.
• CETB413 TRANSPORTATION PLANNING
Pre-requisite : CETB322 AND CETB412
Co-requisite: None
Transportation Planning Process, Transportation Modelling, Traffic Forecasting,
Transportation Demand Analysis, Transportation Project Impact Assessment and
Transportation Project Evaluation..
• CEWB423 URBAN HYDROLOGY & STORMWATER ENGINEERING
Pre-requisite : CEWB222 AND CEWB322
Co-requisite: None
Hydrologic Design Concepts. Design Rainfall Intensities for Frequent, Short and
Rare Storm Duration. Regulatory Criteria and Requirement. Design Acceptance
Criteria.
Design Fundamentals and Runoff Estimation, Routing Method,
Rational Methods, Hydrograph Methods and Runoff Pollutant Estimation.
Design of Runoff Quantity Control; Design of Detention and Retention. Design
81
of Runoff Quality Control; Design of Source Control BMP (Filtration, Infiltration
and Treatment Control) and Design of Open Drain.
• CETB423 HIGHWAY DESIGN & TRAFFIC ENGINEERING
Pre-requisite : CETB412
Co-requisite: None
Geometric design standard , introduction of design, design standard, elements
of design, sight distance, traffic characteristic & engineering study, introduction
of traffic engineering, traffic component and characteristic, survey, location and
plan, route and location survey, intersection design theory and design,
intersection capacity analysis, highway design horizontal, super elevation and
vertical.
• CEEB433 SOLID WASTE MANAGEMENT
Pre-requisite : CEPB323
Co-requisite: None
Solid waste management is addressed by virtually every municipality. Issues
include landfill capacity, landfill diversion, regulatory compliance, energy
recovery, carbon footprints, sustainability, public opinion and economics. This
course covers all aspects of municipal solid waste (MSW) management
including refuse generation, source reduction, collection, transportation,
recycling and resource recovery, burial in landfills, and treatment by
composting, anaerobic digestion and combustion. Regulations and policy
relevant to MSW are also discussed and students are expected to integrate
regulatory, policy and technical considerations in the development of
engineering designs. The application of life-cycle analysis to waste management
systems is also considered.
• CESB403 COMPUTER ANALYSIS & DESIGN OF STRUCTURES
Pre-requisite : CESB333& CESB343
This course enables the students with enough knowledge and understanding of
computer software and its use in the analysis and design of structures. The
students will be exposed to the use and application of software to perform
practical designs. Topics covered include Introduction to analysis of structures
using STAAD.Pro, Model generation, Properties and specifications, Generation
of loads, Analysis, post processing, Design of concrete and Steel structural
members, Seismic analysis and design, Analysis for vibrations, Response
spectrum analysis, Time history analysis, and push over analysis.
• CESB483 REPAIR, ASSESSMENT & REHABILITATION
Pre-requisite : COEB314
Co-requisite: NONE
Structural Damage Assessment:
Overall process of structural inspection and appraisal for structural damage
assessment, Appearance, causes and significance of structural damage and their
82
impact for concrete. Timber decay and remedial treatments. Types and causes
of crack in reinforced concrete, Chemical diagnostic test, semi-and
non-destructive methods of damage assessment of concrete.
Structural Repair:
Reasoning for repair, repair economics, choice of repair materials, repair
materials and methods for concrete structures and timber. Strengthening:
Strengthening methods and materials for concrete and timber structures,
Materials and methods of strengthening using the state of arts used of Fibre
Reinforced Polymer (FRP).
• CEGB 483 GEOGRAPHICAL INFORMATION SYSTEM (GIS) FOR CIVIL
ENGINEERING APPLICATIONS
Co-requisite: None
This course has been introduced to exposed students to one of the appropriate
software related to Geographical Positioning System (GPS) and Remote Sensing
(RS). This course will be focusing more on application of GIS tools in order to
solve civil engineering problems.
• CEWB493 DAM ENGINEERING
Co-requisite: NONE
Planning and management of dam; latest technology for concrete dam, earthfill
dam and rockfill dam; Probable Maximum Precipitation (PMP); Probable
Maximum Flood (PMF); flood routing through reservoir and spillway;
determination of reservoir yield; overview of geotechnical problems associated
with dams; site investigation planning and techniques; foundation design
considerations; effects of earthquake on dam foundation; stability analysis for
normal and flood loads; analysis of foundation deformations; foundation
grouting; foundation site preparation and cleanup; dam hydraulic structure âĂŞ
spillways, energy dissipation facilities, crest gates; emergency response plan for
dam safety; dam break analysis for various failure mode analysis.
• MATB113 ADVANCED CALCULUS AND ANALYTICAL GEOMETRY
This course introduces functions with three variables, partial derivatives,
directional derivatives, extrema for functions with several variables, lagrange
multipliers, multiple integrals, cylindrical and spherical coordinates and vector
calculus.
• MATB143 DIFFERENTIAL EQUATIONS
This course introduces ordinary differential equations and methods for their
solutions. It focuses on first, second and higher order differential equations,
initial-value and boundary-value problems, linear and nonlinear models, power
series solutions about ordinary points and Laplace Transforms.
83
• MATB133 STATISTICS FOR ENGINEERS
Basic probability, continuous and discrete random variables, distribution
functions and their applications, relationship between distributions, random
sampling, data descriptions, fundamental sampling distributions, single sample
estimation and hypotheses testing and simple linear regression and correlation.
• MATB 253 LINEAR ALGEBRA
The course contents are real vector spaces, linear dependence, bases, linear
transformations, matrix Calculus, determinants and ranks, eigenvalues and
Eigenvectors, Gaussian-Jordan elimination and system of Homogeneous
equations.
• COEB223 NUMERICAL METHODS FOR ENGINEERS
Pre-requisite : MATB143, MATB253
Co-requisite: CSEB113
Mathematical modelling. Overview of computers, programming languages and
software development process. Nonlinear equations. System of linear algebraic
equations. Curve fitting. Numerical differentiation and integration. Numerical
solutions of ordinary and partial differential equations. Eigenvalue problems
• COEB314 INDUSTRIAL TRAINING
Pre-requisite : MEMB333
To expose students to the various aspects of industrial practices and ethics. To
apply the training knowledge for the preparation of their final year project.
• COEB422 ENGINEERS IN SOCIETY
Pre-requisite : TECB213 & EEEB273 (BEEE & BEPE) or TECB213 & ECCB243
(BCCE) or MEMB333 (BME) or CEPB323 (BCE)
This course is designed to make engineering students more aware of ethical issues
that may arise in their professional careers and to provide tools for assessing and
resolving ethical dilemmas in engineering. To brief the students about what is
expected from an engineer by the public and their employers. Aware of their
position and responsibility as a professional engineer in the society, in handling
technology transfer and assisting in developing the country.
• COEB432 PRINCIPLES OF MANAGEMENT
Pre-requisite : MEMB322 or EEEB273 or ECCB243
This is an introductory course in management theory and practice.
Management is presented as a discipline and as a process. This course
introduces the modern management concepts with emphasis on the major
functions and activities performed by a manager. It will discuss the behaviour of
individuals and groups in organizational settings. Also included are the
historical theories, decision-making processes, interpersonal concepts and
current management issues.
84
• COEB442 ENGINEERING ECONOMICS
Pre-requisite : EEEB273 or ECCB243 or MEFB213
This is the first economic course for engineering students. The course is
introduced so that the technical knowledge of these students is complemented
with adequate economic knowledge as well as the use of economic analysis.
Students will be exposed to the method of evaluating the economic benefits and
costs of an engineering project. Students will also be taught the importance of
the time value of money, the discount factor, the rate of return of investment as
well as evaluation of alternative projects.
85
Part VI
DEPARTMENT OF ELECTRONICS AND
COMMUNICATION ENGINEERING
86
INTRODUCTION
The Department of Electronics and Communication Engineering offers courses
leading to the award of:
• Bachelor of Electrical and Electronics Engineering (Hons.) (BEEE)
(Approved by JPT (R/523/6/0175) & Accreditated by MQA (MQA/A1847))
• Bachelor of Computer and Communication Engineering (Hons.) (BCCE)
(Approved by MOHE (N/523/6/0070) & Provisional Accreditation by MQA
(MQA/PA-01250))
These programs are designed to prepare students for professional careers and
higher advancement in the area of communication, electronics, computers, control
systems, signal processing, power engineering and other related areas.
The curriculums for these undergraduate programs require a strong foundation in
mathematics, calculus, physics, computer literacy and programming. Engineering
courses begin from the first year itself and include topics, among others, electrical
circuits, electronics, digital logic design, microprocessors, signals & system,
control systems, and data communication and network. In addition to these
topics, students taking BEEE programme will also be exposed to specialized topics
such as electrical machines & drives, power systems, process control and
instrumentation, communication systems; while students enrolling in BCCE will
be exposed to topics related to computer architectures, operating systems,
embedded systems, communication electronics, and digital communications.
Laboratory works which include electrical measurement techniques, application of
non-linear devices, digital logic design, electrical machines, microprocessor, signal
processing, computer networks and communication are intended to reinforce the
principles obtained in the classroom. In addition, many engineering courses are
classified as design courses and complemented by computer aided engineering
software as simulation and design tools, thus further consolidating the
understanding of engineering principles and its application. Students are also
required to take language and social science courses to make them become more
well-balanced in terms of technical and social knowledge and skills.
87
In the end of the third year, students will go through industrial training where
they will be attached with industries all over Malaysia. This provides insights to
students on the real working environment outside. During the final year, the
students are free to choose several topics from technical electives, to specialize
deeper in an area of their interest. They can choose to streamline to a particular
options grouping. Design project courses (the Capstone Design and the Final Year
Project) during the final year will aid students in gaining experience of current
technology and equipment usage as well as provide opportunities to apply
engineering principles that they have acquired earlier on, and even further
advance into investigative research.
The Program Educational Objectives (PEO) of the Bachelor of Electrical and
Electronics Engineering (Hons.)
and the Bachelor of Computer and
Communication Engineering (Hons.) programs are based upon the qualities that
we wish to attain for the graduates in this discipline at least 5 years after
graduation. The PEOs are shown below.
UNITEN produces BEEE graduates who (are):
PEO1
PEO2
PEO3
PEO4
Practicing engineers in electrical engineering with the ability to venture into
energy related business.
Hold leadership responsibility and/or establish their own enterprises.
Have professional qualifications/certifications in electrical engineering
related areas.
Engage in activities to enhance knowledge in their professional works.
UNITEN produces BCCE graduates who (are):
PEO1
PEO2
PEO3
PEO4
Practicing engineers in computer and communication engineering with the
ability to venture into energy related business.
Hold leadership responsibilities and/or establish their own enterprises.
Have professional qualifications/certifications in computer and
communication engineering related areas.
Engage in activities that enhance knowledge in their professional works.
88
The Program Outcomes (POs) for the Bachelor of Electrical and Electronics
Engineering (Hons.)
and the Bachelor of Computer and Communication
Engineering (Hons.) are based upon qualities that UNITEN is looking for in a
graduate of the Electrical and Electronics Engineering, and Computer and
Communication Engineering discipline, respectively, upon graduation. The POs
were also developed based upon the attributes highlighted by EAC (Engineering
Accreditation Council). Each subjects offered in the programme will strive to
cover parts or all of the POs.
Students graduating from the Bachelor of Electrical & Electronics Engineering
(BEEE) programme will have the ability to :
PO1
PO2
PO3
PO4
PO5
PO6
PO7
PO8
PO9
PO10
PO11
PO12
Apply fundamental knowledge of mathematics, science and electrical
engineering principles in solving complex problems
Identify, formulate, analyse and solve complex electrical engineering
problems.
Design solutions for complex electrical engineering problems that meet
specific needs with appropriate consideration for public health and safety,
culture, society, and environment.
investigating complex problems related to electrical engineering.
practice.
leader.
89
Students graduating from the Bachelor of Computer & Communication Engineering
(BCCE) programme will have the ability to :
PO1
PO2
PO3
PO4
PO5
PO6
PO7
PO8
PO9
PO10
PO11
PO12
Apply fundamental knowledge of mathematics, science and computer &
communication engineering principles in solving complex problems.
Identify, formulate, analyze and solve complex computer & communication
engineering problems.
Design solutions for complex computer & communication engineering
problems that meet specific needs with appropriate consideration for public
health and safety, culture, society and environment.
investigating complex problems related to computer & communication
engineering.
engineering tools to execute complex engineering activities
practice.
leader.
The department, together with the Department of Electrical Power Engineering
has a total of 27 undergraduate and postgraduate research laboratories. These
laboratories are:
• Automation
Control
and
Industrial
• Artificial
Intelligence
Machine Vision
• Embedded System Design
and
and
• Internet Protocol Technologies
• Microprocessor Application
• Mobile Robot
• Communication System
• Data
Communication
Networking
• Electrical/Electronics Measurement
• EMF
• Battery Research
• Computer
Engineering
Networking Research
• Electronics Design
and
• Optoelectronics
• Photonics Technology
• Digital Electronics Design
• Power Quality
• EE Computing
• Power System Protection
90
• RF & Microwave Technology
• Signal Processing
• RF & Microwave Engineering
Research
• Telecommunication Research
• Robotics and Control
• Research and Project
• VLSI
• Machine, Power Electronics and
Drive Technology
In addition to these laboratories, there are also Power Systems Laboratories, High
Voltage Testing and Diagnostic, Electronics, Control and Instrumentation, Power
Plant Technology and Electric Drives Laboratories which are owned by TNB
Research and can be accessed by Universiti Tenaga Nasional students for the
purpose of research.
91
Bachelor of Electrical and Electronics Engineering (Hons.): Programme
Structure for Malaysian Students (For Normal Semester Intake starting from
Semester 1, 2016/2017)
Semester
Code
Course
Semester
I
EEEB114
MATB143
EEEB111
Programming for Engineers
Electrical/Electronics
Measurement Lab
Circuits Analysis I
Advanced
Calculus
&
Analytical Geometry
Total Credit Hours
Circuits Analysis II
EEEB113
MATB113
Semester
II
EEEB123
EEEB143
EEEB163
EEEB161
MEMB123
ETIB113
Semester
EEEB273
III
EEEB141
EEEB233
MATB253
TECB213
ICEB113/
MCEB113
Electronics Analysis & Design
I
Digital Logic Design
Digital Logic Design Lab
Total Credit Hours
II
Electronics Design Lab
Signal & System
Linear Algebra
Technical Communications
for Engineers I
Total Credit Hours
Credit
Hours
4
3
1
Prerequisite
NONE
NONE
NONE
Corequisite
NONE
NONE
EEEB113
3
3
NONE
NONE
NONE
NONE
EEEB113,
MATB143
EEEB113
NONE
3
1
3
3
16
3
EEEB113
NONE
NONE
NONE
NONE
EEEB163
NONE
NONE
EEEB143
NONE
1
3
3
3
3
EEEB111
EEEB123
NONE
NONE
NONE
EEEB143
NONE
NONE
NONE
NONE
14
3
3
NONE
16
Continue
92
Semester
Code
Course
Semester
IV
MEHB213
EEEB283
Thermodynamics I
Electrical Machines & Drives
EEEB253
EEPB353
Electromagnetic Fields &
Waves
Numerical
Methods
for
Engineers
for Engineers II
Personal
Financial
Management
Total Credit Hours
Electrical Power System I
EEEB323
Control System I
3
EEEB373
Microprocessor Systems
3
EESB313
EEEB383
COEB422
Semiconductor Devices
Random Process
3
3
2
EECB351
EECB353
EEEB363
Total Credit Hours
Communication System Lab
Communication System
Digital Signal Processing
COEB223
ICEB212/
MCEB212
AKPK111
Semester
V
Semester
VI
EEEB371
COEB432
EECB423
Special
Semester
COEB314
Semester
VII
EEEB403
Total Credit Hours
Capstone Design Course
ECRB412
Project I
EEIB413
Process
Control
Instrumentation
Technical Elective I
Engineering Economics
Total Credit Hours
***
COEB442
3
3
2
1
15
3
17
1
3
3
Microprocessor Systems Lab
Principles of Management
Data Communication and
Network
Hubungan Etnik
Total Credit Hours
Industrial Training
EHEB113
Credit
Hours
3
3
1
2
3
3
16
4
Prerequisite
NONE
EEEB113,
MATB113,
EEEB123
EEEB123,
MATB143
MATB143,
MATB253
ICEB113/
MCEB113
NONE
Continuation
Corequisite
NONE
NONE
NONE
EEEB114
NONE
NONE
EEEB123,
EEEB283
EEEB233,
MATB143
EEEB163,
EEEB233
EEEB273
EEEB233
TECB213,
EEEB273
NONE
NONE
EEEB233
EEEB233,
EEEB373
EEEB373
EEEB273
EEEB373,
EEEB383
NONE
EECB353
NONE
NONE
EEEB323,
70 CH
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
4
3
2
&
3
3
2
13
COEB422,
EECB423
EEEB323,
EEEB363,
EEPB353,
EECB353
EEEB323,
MEHB213
EEEB273
NONE
NONE
NONE
Continue
93
Semester
Code
Semester
VIII
ECRB424
***
***
***
***
Course
Project II
Credit
Hours
4
Technical Elective II
Technical Elective III
Technical Elective IV
Literature and Sociology
Total Credit Hours
3
3
3
3
16
127
Prerequisite
ECRB412,
COEB442
NONE
Technical Elective Courses (Take any 4 subjects)
Artificial Intelligence and
3
EEEB323
Neural-fuzzy Systems
ECEB473
Advanced Microprocessor
3
EEEB373
ECEB483
Computer Architecture
3
EECB353
EECB433
Applied Telecommunication
3
EEEB273
Systems
EECB473
Data Network Architecture &
3
EECB423
Electronics
EECB483
Optoelectronics and Fibre
3
EEEB253
Optics
EECB493
Radio Frequency/Microwave
3
EEEB253
Engineering
EEEB393
Power Electronics
3
EEEB233,
EEEB283
EEEB423
Control System II
3
EEEB323
EEEB443
Control & Drives
3
EEEB393
EEEB513
Computer Controlled Systems
3
EEEB323
EEEB473
Image Processing
3
EEEB363
EEEB493
Introduction to Robotics
3
EEEB114,
EEEB323
EESB423
VLSI Design
3
EEEB373
EESB433
Analog IC Design
3
EEEB273
EESB493
Embedded Systems
3
EEEB373,
EEEB114
MESB413
Elements of Mechatronics
3
EEEB283,
EEEB323
EEPB383
Electrical Power System II
3
EEPB353
EEPB413
Electrical Installations
3
EEPB353
EEPB423
Electrical Safety and Hazards
3
EEPB383
EEPB473
Power System Protection
3
EEPB353
EEPB493
High Voltage Direct Current
3
EEEB393,
(HVDC), and FACTS Devices
EEPB353
EPEB413
Power Quality
3
EEPB353
EPEB423
Electricity
Industry
3
EEPB353
Economics
EPEB443
Energy Conversion
3
EEPB353
EPEB453
Power
Distribution
3
EEPB353
Engineering
MENB403
Introduction
to
Nuclear
3
COEB422
Engineering
ECEB463
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
Continue
94
Semester
Code
Course
MENB413
Radiation Detection and
Nuclear Instrumentation
Introduction to Reactor Physic
Radiation Safety and Waste
Management
Reactor Thermal-hydraulic
Nuclear Policy, Security and
Safeguards
Introduction
to
Nuclear
Technology
MENB423
MENB433
MENB443
MENB453
MEHB513
AKPK111
EHEB113
ICEB113/
MCEB113
ICEB212/
MCEB212
ETIB113
MLKB113
KDKB113
SPRB113
KKSB113
RELB113
PKIB113
SPYB113
MANB113
FRAB113
GERB113
JAPB113
Prerequisite
COEB422
3
3
COEB422
COEB422
NONE
NONE
3
3
COEB422
COEB422
NONE
NONE
3
COEB442
NONE
EEEB323
NONE
EEEB373
NONE
NONE
NONE
ICEB113/
MCEB113
NONE
NONE
Personal
Financial
1
Management
Hubungan Etnik
3
3
3
3
Asia
Bahasa
Kebangsaan
A
3
3
3
Workplaces
3
3
Creative Thinking
3
Introduction
to
Social
3
Psychology
Mandarin Language
3
Basic French
3
Basic German
3
Japanese Language
3
Continuation
Corequisite
NONE
Credit
Hours
3
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
95
Structure for International Students (for Normal Semester Intake starting from
Semester 1, 2016/2017)
Semester
Code
Course
Semester
I
EEEB114
MATB143
EEEB111
Measurement Lab
Circuits Analysis I
Advanced
Calculus
&
Analytical Geometry
Total Credit Hours
EEEB113
MATB113
Semester
II
EEEB123
EEEB143
EEEB163
EEEB161
MEMB123
MALB103
Semester
EEEB273
III
EEEB141
EEEB233
MATB253
TECB213
MASB113
Semester
IV
MEHB213
EEEB283
EEEB253
COEB223
***
I
Malay
Language
for
International Students
Total Credit Hours
II
Signal & System
Linear Algebra
Malaysian Study
Total Credit Hours
Thermodynamics I
Waves
Numerical
Methods
for
Engineers
International
MPU
Compulsory [U2]
Total Credit Hours
Credit
Hours
4
3
1
Prerequisite
NONE
NONE
NONE
Corequisite
NONE
NONE
EEEB113
3
3
NONE
NONE
NONE
NONE
NONE
3
EEEB113,
MATB143
EEEB113
3
1
3
3
EEEB113
NONE
NONE
NONE
NONE
EEEB163
NONE
NONE
16
3
EEEB143
NONE
EEEB111
EEEB123
NONE
NONE
NONE
EEEB143
NONE
NONE
NONE
NONE
NONE
EEEB113,
MATB113,
EEEB123
EEEB123,
MATB143
MATB143,
MATB253
NONE
NONE
NONE
14
3
1
3
3
3
3
16
3
3
3
3
3
NONE
NONE
EEEB114
NONE
15
Continue
96
Semester
Code
Semester
V
EEPB353
EEEB323
Control System I
3
EEEB373
3
EESB313
EEEB383
COEB422
Random Process
3
3
2
EECB351
EECB353
EEEB363
Total Credit Hours
Semester
VI
EEEB371
COEB432
EECB423
Course
Credit
Hours
3
17
1
3
3
Special
Semester
COEB314
Network
International
MPU
Compulsory [U3]
Total Credit Hours
Industrial Training
Semester
VII
EEEB403
Total Credit Hours
ECRB412
Project I
EEIB413
Process
Control
Instrumentation
Total Credit Hours
Project II
***
***
COEB442
Semester
VIII
ECRB424
***
***
***
***
International
Compulsory [U4]
Total Credit Hours
1
2
3
3
16
4
Prerequisite
EEEB123,
EEEB283
EEEB233,
MATB143
EEEB163,
EEEB233
EEEB273
EEEB233
TECB213,
EEEB273
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
EEEB233
EEEB233,
EEEB373
EEEB373
EEEB273
EEEB373,
EEEB383
NONE
EECB353
NONE
NONE
EEEB323,
70 CH
NONE
NONE
NONE
NONE
NONE
4
3
2
&
3
3
2
13
4
MPU
3
3
3
3
COEB422,
EECB423
EEEB323,
EEEB363,
EEPB353,
EECB353
EEEB323,
MEHB213
NONE
NONE
EEEB273
NONE
ECRB412,
COEB442
NONE
NONE
NONE
16
127
Continue
97
Semester
Code
Course
Credit
Hours
Prerequisite
3
EEEB323
ECEB473
3
EEEB373
ECEB483
3
EECB353
EECB433
3
EEEB273
Systems
EECB473
3
EECB423
Electronics
EECB483
3
EEEB253
Optics
EECB493
3
EEEB253
Engineering
EEEB393
Power Electronics
3
EEEB233,
EEEB283
EEEB423
Control System II
3
EEEB323
EEEB443
Control & Drives
3
EEEB393
EEEB513
3
EEEB323
EEEB473
Image Processing
3
EEEB363
EEEB493
3
EEEB114,
EEEB323
EESB423
VLSI Design
3
EEEB373
EESB433
Analog IC Design
3
EEEB273
EESB493
Embedded Systems
3
EEEB373,
EEEB114
MESB413
3
EEEB283,
EEEB323
EEPB383
3
EEPB353
EEPB413
3
EEPB353
EEPB423
3
EEPB383
EEPB473
3
EEPB353
EEPB493
3
EEEB393,
EEPB353
EPEB413
Power Quality
3
EEPB353
EPEB423
Electricity
Industry
3
EEPB353
Economics
EPEB443
Energy Conversion
3
EEPB353
EPEB453
Power
Distribution
3
EEPB353
Engineering
MENB403
Introduction
to
Nuclear
3
COEB422
Engineering
MENB413
3
COEB422
MENB423
3
COEB422
MENB433
3
COEB422
Management
MENB443
3
COEB422
MENB453
3
COEB422
Safeguards
ECEB463
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
Continue
98
Semester
Code
MEHB513
MALB103
MASB113
Course
Introduction
Technology
to
Nuclear
Credit
Hours
3
Malay
Language
for
3
Malaysian Studies
3
Prerequisite
COEB442
NONE
NONE
NONE
NONE
FRAB113
Basic French
3
NONE
GERB113
Basic German
3
NONE
JAPB113
Japanese Language
3
NONE
MALB203
3
NONE
Student
MANB113
Mandarin Language
3
NONE
PKIB113
Creative Thinking
3
NONE
SPYB113
Introduction
to
Social
3
NONE
Psychology
RELB113
3
NONE
SPRB113
Sports
and
Recreation
3
NONE
HFTB113
Health and Fitness
3
NONE
ISWB113
3
NONE
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
99
Structure for Malaysian Students (for Special Semester Intake starting from
Special Semester 2016/2017)
Semester
Code
Course
Special
Semester
I
MATB113
Advanced
Calculus
&
Analytical Geometry
Total Credit Hours
Measurement Lab
Circuits Analysis I
for Engineers I
Total Credit Hours
Semester
I
ETIB113
EEEB114
MATB143
EEEB111
EEEB113
MEMB123
ICEB113/
MCEB113
Semester
II
EEEB123
EEEB143
Credit
Hours
3
Prerequisite
NONE
Corequisite
NONE
3
NONE
NONE
4
3
1
NONE
NONE
NONE
NONE
NONE
EEEB113
3
3
3
NONE
NONE
NONE
NONE
NONE
NONE
EEEB113,
MATB143
EEEB113
NONE
EEEB113
NONE
NONE
ICEB113/
MCEB113
NONE
EEEB163
NONE
NONE
15
3
EEEB143
NONE
1
3
3
1
EEEB111
EEEB123
NONE
NONE
EEEB143
NONE
NONE
NONE
NONE
NONE
EEEB233,
MATB143
EEEB113,
MATB113,
EEEB123
EEEB123,
MATB143
EEEB163,
EEEB233
MATB143,
MATB253
NONE
6
17
3
Semester
EEEB323
I
Linear Algebra
for Engineers II
Total Credit Hours
II
Signal & System
Thermodynamics I
Personal
Financial
Management
Total Credit Hours
Control System I
IV
EEEB283
3
EEEB253
Electromagnetic Fields
Waves
3
EEEB163
EEEB161
MATB253
ICEB212/
MCEB212
Semester
EEEB273
III
EEEB141
EEEB233
MEHB213
AKPK111
TECB213
EEEB373
COEB223
Numerical
Methods
Engineers
Total Credit Hours
&
3
3
1
3
2
3
14
3
3
for
3
NONE
NONE
NONE
NONE
EEEB114
15
Continue
100
Semester
Code
Special
Semester
2
COEB432
***
EHEB113
Semester
V
EEPB353
EEIB413
Semester
VI
Course
Hubungan Etnik
Total Credit Hours
EESB313
EEEB383
EEEB371
COEB422
Process
Control
&
Instrumentation
Random Process
EECB351
EECB353
EEEB363
Total Credit Hours
EECB423
Credit
Hours
2
3
3
6
3
3
3
3
1
2
15
1
3
3
COEB442
***
ECRB412
Data Communication
Network
Project I
Special
Semester
COEB314
Total Credit Hours
Industrial Training
17
4
EEEB403
Total Credit Hours
4
Semester
VII
ECRB424
Project II
***
***
***
Total Credit Hours
and
3
2
3
2
3
4
Prerequisite
EEEB273
NONE
NONE
Continuation
Corequisite
NONE
NONE
NONE
EEEB123,
EEEB283
EEEB323,
MEHB213
EEEB273
EEEB233
EEEB373
TECB213,
EEEB273
NONE
NONE
EEEB233
EEEB233,
EEEB373
EEEB373,
EEEB383
EEEB273
EECB353
NONE
NONE
EEEB323,
EEEB363,
EEPB353,
EECB353
NONE
EEEB323,
70 CH
NONE
COEB422,
EECB423
ECRB412,
COEB442
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
3
3
3
16
127
Continue
101
Semester
Code
Course
Credit
PreHours
requisite
ECEB463
3
EEEB323
ECEB473
3
EEEB373
ECEB483
3
EECB353
EECB433
3
EEEB273
Systems
EECB473
3
EECB423
Electronics
EECB483
3
EEEB253
Optics
EECB493
3
EEEB253
Engineering
EEEB393
Power Electronics
3
EEEB233,
EEEB283
EEEB423
Control System II
3
EEEB323
EEEB443
Control & Drives
3
EEEB393
EEEB513
3
EEEB323
EEEB473
Image Processing
3
EEEB363
EEEB493
3
EEEB114,
EEEB323
EESB423
VLSI Design
3
EEEB373
EESB433
Analog IC Design
3
EEEB273
EESB493
Embedded Systems
3
EEEB373,
EEEB114
MESB413
3
EEEB283,
EEEB323
EEPB383
3
EEPB353
EEPB413
3
EEPB353
EEPB423
3
EEPB383
EEPB473
3
EEPB353
EEPB493
3
EEEB393,
EEPB353
EPEB413
Power Quality
3
EEPB353
EPEB423
Electricity
Industry
3
EEPB353
Economics
EPEB443
Energy Conversion
3
EEPB353
EPEB453
Power
Distribution
3
EEPB353
Engineering
MENB403
Introduction
to
Nuclear
3
COEB422
Engineering
MENB413
3
COEB422
MENB423
3
COEB422
MENB433
3
COEB422
Management
MENB443
3
COEB422
MENB453
3
COEB422
Safeguards
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
Continue
102
Semester
Code
MEHB513
AKPK111
EHEB113
ICEB113/
MCEB113
ICEB212/
MCEB212
ETIB113
MLKB113
KDKB113
SPRB113
KKSB113
RELB113
PKIB113
SPYB113
MANB113
FRAB113
GERB113
JAPB113
Course
Introduction
Technology
to
Nuclear
Credit
Hours
3
Personal
Financial
1
Management
Hubungan Etnik
3
3
3
3
Asia
Prerequisite
COEB442
EEEB323
NONE
EEEB373
NONE
NONE
NONE
ICEB113/
MCEB113
NONE
NONE
Bahasa
Kebangsaan
A
3
3
3
Workplaces
3
3
Creative Thinking
3
Introduction
to
Social
3
Psychology
Mandarin Language
3
Basic French
3
Basic German
3
Japanese Language
3
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
103
Structure for International Students (for Special Semester Intake starting from
Special Semester 2016/2017)
Semester
Code
Course
Special
Semester
I
MATB113
Advanced
Calculus
&
Analytical Geometry
Malay
Language
for
Total Credit Hours
Measurement Lab
Circuits Analysis I
Total Credit Hours
Semester
I
MALB103
EEEB114
MATB143
EEEB111
EEEB113
MEMB123
Semester
II
EEEB123
EEEB143
Credit
Hours
3
Prerequisite
NONE
Corequisite
NONE
3
NONE
NONE
4
3
1
NONE
NONE
NONE
NONE
NONE
EEEB113
3
3
14
3
NONE
NONE
NONE
NONE
NONE
3
EEEB113,
MATB143
EEEB113
3
1
3
3
EEEB113
NONE
NONE
NONE
NONE
EEEB163
NONE
NONE
16
3
EEEB143
NONE
1
3
3
3
EEEB111
EEEB123
NONE
NONE
EEEB143
NONE
NONE
NONE
NONE
NONE
EEEB233,
MATB143
EEEB113,
MATB113,
EEEB123
EEEB123,
MATB143
EEEB163,
EEEB233
MATB143,
MATB253
NONE
6
Semester
EEEB323
I
Linear Algebra
International
MPU
Compulsory [U2]
Total Credit Hours
II
Signal & System
Thermodynamics I
International
MPU
Compulsory [U3]
Total Credit Hours
Control System I
IV
EEEB283
3
EEEB253
Electromagnetic Fields
Waves
3
EEEB163
EEEB161
MATB253
***
Semester
EEEB273
III
EEEB141
EEEB233
MEHB213
***
TECB213
EEEB373
COEB223
Numerical
Methods
Engineers
Total Credit Hours
&
3
16
3
3
for
3
NONE
NONE
NONE
NONE
EEEB114
15
Continue
104
Semester
Code
Course
Special
Semester
COEB432
***
2
MASB113
International
MPU
Compulsory [U4]
Malaysian Study
Total Credit Hours
Semester
V
EEPB353
EEIB413
Semester
VI
EESB313
EEEB383
EEEB371
COEB422
Process
Control
&
Instrumentation
Random Process
EECB351
EECB353
EEEB363
Total Credit Hours
EECB423
Prerequisite
EEEB273
NONE
3
NONE
NONE
3
EEEB123,
EEEB283
EEEB323,
MEHB213
EEEB273
EEEB233
EEEB373
TECB213,
EEEB273
NONE
NONE
EEEB233
EEEB233,
EEEB373
EEEB373,
EEEB383
EEEB273
EECB353
NONE
NONE
EEEB323,
EEEB363,
EEPB353,
EECB353
NONE
EEEB323,
70 CH
NONE
8
3
3
3
1
2
15
1
3
3
COEB442
***
ECRB412
Data Communication
Network
Project I
Special
Semester
COEB314
Total Credit Hours
Industrial Training
17
4
EEEB403
Total Credit Hours
4
Semester
VII
ECRB424
Project II
***
***
***
Total Credit Hours
Continuation
Corequisite
NONE
NONE
Credit
Hours
2
3
and
3
2
3
2
3
4
COEB422,
EECB423
ECRB412,
COEB442
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
3
3
3
16
127
Continue
105
Semester
Code
Course
Credit
PreHours
requisite
ECEB463
3
EEEB323
ECEB473
3
EEEB373
ECEB483
3
EECB353
EECB433
3
EEEB273
Systems
EECB473
3
EECB423
Electronics
EECB483
3
EEEB253
Optics
EECB493
3
EEEB253
Engineering
EEEB393
Power Electronics
3
EEEB233,
EEEB283
EEEB423
Control System II
3
EEEB323
EEEB443
Control & Drives
3
EEEB393
EEEB513
3
EEEB323
EEEB473
Image Processing
3
EEEB363
EEEB493
3
EEEB114,
EEEB323
EESB423
VLSI Design
3
EEEB373
EESB433
Analog IC Design
3
EEEB273
EESB493
Embedded Systems
3
EEEB373,
EEEB114
MESB413
3
EEEB283,
EEEB323
EEPB383
3
EEPB353
EEPB413
3
EEPB353
EEPB423
3
EEPB383
EEPB473
3
EEPB353
EEPB493
3
EEEB393,
EEPB353
EPEB413
Power Quality
3
EEPB353
EPEB423
Electricity
Industry
3
EEPB353
Economics
EPEB443
Energy Conversion
3
EEPB353
EPEB453
Power
Distribution
3
EEPB353
Engineering
MENB403
Introduction
to
Nuclear
3
COEB422
Engineering
MENB413
3
COEB422
MENB423
3
COEB422
MENB433
3
COEB422
Management
MENB443
3
COEB422
MENB453
3
COEB422
Safeguards
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
Continue
106
Semester
Code
MEHB513
MALB103
MASB113
Course
Introduction
Technology
to
Nuclear
Credit
Hours
3
Malay
Language
for
3
Malaysian Studies
3
Prerequisite
COEB442
NONE
NONE
NONE
NONE
FRAB113
Basic French
3
NONE
GERB113
Basic German
3
NONE
JAPB113
Japanese Language
3
NONE
MALB203
3
NONE
Student
MANB113
Mandarin Language
3
NONE
PKIB113
Creative Thinking
3
NONE
SPYB113
Introduction
to
Social
3
NONE
Psychology
RELB113
3
NONE
SPRB113
Sports
and
Recreation
3
NONE
HFTB113
Health and Fitness
3
NONE
ISWB113
3
NONE
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
107
Recommended options grouping for BEEE(Hons.) technical electives based on
specialisation areas:
Options
Communications Engineering
Computer Engineering
Microelectronics Engineering
Control Engineering
Power Engineering
Nuclear Engineering
Courses
EECB433 Applied Telecommunication Systems
EECB483 Optoelectronics and Fibre Optics
EECB493 Radio Frequency/Microwave Engineering
EECB473 Data Network Architecture and Electronics
ECEB 473 Advanced Microprocessor
ECEB 483 Computer Architecture
EECB 473 Data Network Architecture and Electronics
EESB 493 Embedded Systems
EEEB472 Image Processing
EEEB513 Computer Controlled Systems
EESB423 VLSI Design
EESB433 Analog IC Design
EESB 493 Embedded Systems
EEEB472 Image Processing
EECEB463 Artificial Intelligence and Neural Fuzzy
EEEB423 Control System II
EEEB443 Control and Drives
MESB413 Elements of Mechatronics
EEEB493 Introduction to Robotics
EEEB393 Power Electronics
EEEB513 Computer Controlled Systems
EECEB463 Artificial Intelligence and Neural Fuzzy
EEEB393 Power Electronics
EEEB443 Control and Drives
EEEB423 Control System II
EEPB383 Electrical Power System II
EEPB413 Electrical Installations
EEPB423 Electrical Safety and Hazards
EEPB473 Power System Protection
EEPB493 High Voltage Direct Current (HVDC)), and FACTS
Devices
EPEB413 Power Quality
EPEB423 Electricity Industry Economics
EPEB443 Energy Conversion
EPEB453 Power Distribution Engineering
MENB403 Introduction to Nuclear Engineering
MENB413 Radiation Detection and Nuclear Instrumentation
MENB423 Introduction to Reactor Physic
MENB433 Radiation Safety and Waste Management
MENB443 Reactor Thermal-hydraulic
MENB453 Nuclear Policy, Security and Safeguards
MEHB513 Introduction to Nuclear Technology
108
Bachelor of Computer and Communication Engineering (Hons.): Programme
Structure for Malaysian Students (for normal Semester Intake starting from
Semester 1, 2016/2017)
Semester
Code
Course
Semester
I
ECCB111
Introduction to Computer and
Communication Engineering
(Workshop)
Circuit Theory
Measurement Lab
Advanced
Calculus
&
Analytical Geometry
Total Credit Hours
Personal
Financial
Management
Electronics Circuits Analysis
Linear Algebra
Total Credit Hours
Numerical
Methods
for
Engineers
Object
Oriented
Programming
Digital Systems Design
ECCB114
EEEB111
EEEB114
MATB113
MATB143
Semester
AKPK111
II
ECCB123
EEEB163
EEEB161
MATB253
ETIB113
Semester
III
COEB223
ECCB213
ECCB233
EEEB141
EHEB113
TECB213
Semester
IV
ECCB243
EEEB233
EEEB253
EEEB373
ICEB113/
MCEB113
Hubungan Etnik
Total Credit Hours
Computer Organization and
Architecture
Signal & System
Waves
for Engineers I
Total Credit Hours
Credit
Hours
1
Prerequisite
NONE
Corequisite
NONE
4
1
NONE
NONE
MATB143
ECCB114
4
3
NONE
NONE
NONE
NONE
3
16
1
NONE
NONE
NONE
NONE
3
3
1
3
3
14
3
ECCB114
ECCB114
NONE
NONE
NONE
NONE
NONE
EEEB163
NONE
NONE
MATB143,
MATB253
EEEB114
EEEB114
EEEB163
ECCB123,
EEEB111
NONE
NONE
NONE
NONE
ECCB233
NONE
ECCB114
MATB143,
ECCB114
ECCB233
NONE
NONE
NONE
3
3
1
3
3
16
3
3
3
3
3
NONE
NONE
NONE
NONE
NONE
15
Continue
109
Semester
Code
Course
Semester
V
COEB432
ECCB311
EECB353
EEEB323
Digital Signal Processing Lab
Communication Systems
Control System
EEEB363
3
EEEB371
ICEB212
/
MCEB212
1
2
Semester
VI
COEB422
ECCB323
Total Credit Hours
Special
Semester
COEB314
Data
Structure
and
Algorithms
Digital Communications
Wireless
and
Mobile
Communication
Random Process
Total Credit Hours
Industrial Training
Semester
VII
COEB442
ECCB412
Total Credit Hours
Project I
ECCB343
ECCB363
EECB351
EEEB383
EECB423
Credit
Hours
2
1
3
3
15
1
Prerequisite
ECCB243
NONE
EEEB233
EEEB233,
MATB143
EEEB233,
EEEB373
EEEB373
ICEB113/
MCEB113
Continuation
Corequisite
NONE
EEEB363
NONE
NONE
ECCB311
NONE
NONE
NONE
3
TECB213,
ECCB243
ECCB213
3
3
EECB353
EECB353
NONE
NONE
1
3
15
4
EECB353
EEEB233
NONE
NONE
EEEB323,
70 CH
NONE
ECCB243
ECCB343,
EEEB363
EEEB373,
EEEB383
COEB422,
ECCB343
EEEEB373,
EEEB114
NONE
NONE
NONE
4
2
2
3
EEEB403
Network
EESB493
Embedded Systems
3
***
Total Credit Hours
3
16
3
NONE
NONE
NONE
Continue
110
Semester
Code
Semester
VIII
ECCB424
Project II
ECCB423
Operating Systems
***
***
***
Course
Total Credit Hours
Credit
Hours
4
3
3
3
3
16
127
Prerequisite
ECCB412,
COEB314
ECCB243,
EEEB373
NONE
A – With emphasis in Computer Engineering
ECEB463
3
EEEB323
ECEB473
3
EEEB373
ECPB423
Systems-on-Chips
3
ECCB243,
EEEB373
ECPB433
Introduction
to
3
Computational Biology
ECPB443
Multi-Core Programming
3
ECPB453
Database Programming
3
ECPB463
Advanced
Computer
3
ECCB243
Architecture
ECPB473
Software Engineering
3
EECB473
3
EECB423
Electronics
EESB423
VLSI Design
3
EEEB373
EESB433
Analog IC Design
3
EEEB363
B – With emphasis in Communication Engineering
ECTB413
Antenna Systems
ECTB423
Broadband Technologies
ECTB433
Communication Electronics
ECTB443
EECB433
EECB483
EECB493
Optical Communications
Systems
Optics
Engineering
3
3
3
EEEB253
EECB423
ECCB123,
EECB353
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
3
3
EECB353
NONE
NONE
3
EEEB253
NONE
3
EEEB253
NONE
Continue
111
Semester
Code
Course
Credit
Hours
C – Common to both Computer and Communication Engineering
ECSB413
SCADA Systems
3
ECSB423
Introduction to Modeling and
3
Simulation
ECSB433
Real Time Systems
3
ECSB443
Advanced
Digital
Signal
3
Processing
ECSB453
Computer Forensics
3
ECSB463
Internet Programming
3
ECSB473
Computer Security
3
EEEB423
Control System II
3
EEEB473
Image Processing
3
EEEB493
3
EEEB513
EEIB413
AKPK111
EHEB113
ICEB113/
MCEB113
ICEB212/
MCEB212
ETIB113
MLKB113
KDKB113
SPRB113
KKSB113
RELB113
PKIB113
SPYB113
MANB113
FRAB113
GERB113
JAPB113
Computer-Controlled
Systems
Process
Control
Instrumentation
3
&
3
Personal
Financial
1
Management
Hubungan Etnik
3
3
3
3
Asia
Prerequisite
EECB353
EEEB383
NONE
NONE
ECCB233
EEEB363
NONE
NONE
EEEB323
EEEB363
EEEB323,
EEEB114
EEEB323
NONE
NONE
NONE
NONE
NONE
NONE
NONE
EEEB323,
MEHB213
NONE
EEEB323
NONE
EEEB373
NONE
NONE
NONE
ICEB113/
MCEB113
NONE
NONE
Bahasa
Kebangsaan
A
3
3
3
Workplaces
3
3
Creative Thinking
3
Introduction
to
Social
3
Psychology
Mandarin Language
3
Basic French
3
Basic German
3
Japanese Language
3
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
112
Structure for International Students (for normal Semester Intake starting from
Semester 1, 2016/2017)
Semester
Code
Course
Semester
I
ECCB111
(Workshop)
Circuit Theory
Measurement Lab
Advanced
Calculus
&
Analytical Geometry
Total Credit Hours
Linear Algebra
Malay
Language
for
Malaysian Studies
Total Credit Hours
Numerical
Methods
for
Engineers
Object
Oriented
Programming
ECCB114
EEEB111
EEEB114
MATB113
MATB143
Semester
II
ECCB123
EEEB163
EEEB161
MATB253
MALB103
MASB113
Semester
III
COEB223
ECCB213
ECCB233
EEEB141
***
TECB213
Semester
IV
ECCB243
EEEB233
EEEB253
EEEB373
***
International
MPU
Compulsory [U2]
Total Credit Hours
Architecture
Signal & System
Waves
International
MPU
Compulsory [U3]
Total Credit Hours
Credit
Hours
1
Prerequisite
NONE
Corequisite
NONE
4
1
NONE
NONE
MATB143
ECCB114
4
3
NONE
NONE
NONE
NONE
3
16
3
3
1
3
3
NONE
NONE
ECCB114
ECCB114
NONE
NONE
NONE
NONE
NONE
EEEB163
NONE
NONE
NONE
NONE
MATB143,
MATB253
EEEB114
EEEB114
EEEB163
ECCB123,
EEEB111
NONE
NONE
NONE
NONE
NONE
ECCB233
NONE
ECCB114
MATB143,
ECCB114
ECCB233
NONE
NONE
NONE
3
16
3
3
3
1
3
3
16
3
3
3
3
3
NONE
NONE
NONE
NONE
15
Continue
113
Semester
Code
Course
Semester
V
COEB432
ECCB311
EECB353
EEEB323
Control System
EEEB363
EEEB371
Total Credit Hours
Semester
VI
COEB422
ECCB323
3
Special
Semester
COEB314
Data
Structure
and
Algorithms
Wireless
and
Mobile
Communication
Random Process
Total Credit Hours
Industrial Training
Semester
VII
COEB442
ECCB412
Total Credit Hours
Project I
ECCB343
ECCB363
EECB351
EEEB383
EECB423
Semester
VIII
Credit
Hours
2
1
3
3
1
13
1
Continuation
Corequisite
NONE
EEEB363
NONE
NONE
ECCB311
NONE
NONE
3
TECB213,
ECCB243
ECCB213
3
3
EECB353
EECB353
NONE
NONE
1
3
15
4
EECB353
EEEB233
NONE
NONE
EEEB323,
70 CH
NONE
ECCB243
ECCB343,
EEEB363
EEEB373,
EEEB383
COEB422,
ECCB343
EEEB373,
EEEB114
NONE
NONE
ECCB412,
COEB314
ECCB243,
EEEB373
NONE
NONE
NONE
NONE
4
2
2
3
EEEB403
Network
EESB493
Embedded Systems
3
***
ECCB424
Total Credit Hours
Project II
3
16
4
ECCB423
Operating Systems
3
International
Compulsory [U4]
Total Credit Hours
3
3
3
***
***
***
Prerequisite
ECCB243
NONE
EEEB233
EEEB233,
MATB143
EEEB233,
EEEB373
EEEB373
MPU
3
NONE
NONE
NONE
NONE
16
127
Continue
114
Semester
Code
Course
Credit
PreHours
requisite
ECEB463
3
EEEB323
ECEB473
3
EEEB373
ECPB423
Systems-on-Chips
3
ECCB243,
EEEB373
ECPB433
Introduction
to
3
ECPB443
3
ECPB453
3
ECPB463
Advanced
Computer
3
ECCB243
Architecture
ECPB473
3
EECB473
3
EECB423
Electronics
EESB423
VLSI Design
3
EEEB373
EESB433
Analog IC Design
3
EEEB363
ECTB413
Antenna Systems
ECTB423
ECTB433
ECTB443
EECB433
EECB483
EECB493
Systems
Optics
Engineering
3
3
3
EEEB253
EECB423
ECCB123,
EECB353
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
3
3
EECB353
NONE
NONE
3
EEEB253
NONE
3
EEEB253
NONE
Continue
115
Semester
Code
Course
Credit
Hours
ECSB413
SCADA Systems
3
ECSB423
3
Simulation
ECSB433
Real Time Systems
3
ECSB443
Advanced
Digital
Signal
3
Processing
ECSB453
Computer Forensics
3
ECSB463
3
ECSB473
Computer Security
3
EEEB423
Control System II
3
EEEB473
Image Processing
3
EEEB493
3
EEEB513
EEIB413
MALB103
MASB113
Computer-Controlled
Systems
Process
Control
Instrumentation
3
&
3
Malay
Language
for
3
Malaysian Studies
3
Prerequisite
EECB353
EEEB383
NONE
NONE
ECCB233
EEEB363
NONE
NONE
EEEB323
EEEB363
EEEB323,
EEEB114
EEEB323
NONE
NONE
NONE
NONE
NONE
NONE
NONE
EEEB323,
MEHB213
NONE
NONE
NONE
NONE
NONE
FRAB113
Basic French
3
NONE
GERB113
Basic German
3
NONE
JAPB113
Japanese Language
3
NONE
MALB203
3
NONE
Student
MANB113
Mandarin Language
3
NONE
PKIB113
Creative Thinking
3
NONE
SPYB113
Introduction
to
Social
3
NONE
Psychology
RELB113
3
NONE
SPRB113
Sports
and
Recreation
3
NONE
HFTB113
Health and Fitness
3
NONE
ISWB113
3
NONE
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
116
Structure for Malaysian Students (for January Intake starting from Special
Semester 2016/2017)
Semester
Code
Course
Special
ETIB113
Semester
1
MATB113
Semester
I
ECCB111
Asia
Advanced
Calculus
&
Analytical Geometry
Total Credit Hours
(Workshop)
Circuit Theory
Measurement Lab
Linear Algebra
Total Credit Hours
Personal
Financial
Management
Object
Oriented
Programming
Total Credit Hours
Numerical
Methods
for
Engineers
ECCB114
EEEB111
EEEB114
MATB253
MATB143
Semester
AKPK111
II
ECCB123
ECCB213
EEEB163
EEEB161
TECB213
Semester
III
COEB223
ECCB233
EEEB141
EEEB233
EEEB253
ICEB113/
MCEB113
Semester
IV
ECCB243
EECB353
EECB351
EEEB323
EEEB373
EEEB383
Signal & System
Waves
for Engineers I
Total Credit Hours
Architecture
Control System I
Random Process
Total Credit Hours
Credit
Hours
1
Prerequisite
NONE
Corequisite
NONE
3
NONE
NONE
1
NONE
NONE
4
1
NONE
NONE
MATB143
ECCB114
4
3
3
16
1
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
3
3
ECCB114
EEEB114
NONE
NONE
3
1
3
14
3
ECCB114
NONE
NONE
NONE
EEEB163
NONE
EEEB114
3
MATB143,
MATB253
EEEB163
ECCB123,
EEEB111
ECCB114
MATB143,
ECCB114
NONE
16
3
ECCB233
NONE
EEEB233
NONE
EEEB233,
MATB143
ECCB233
EEEB233
NONE
EECB353
NONE
6
3
1
3
3
3
1
1
3
3
16
NONE
NONE
NONE
NONE
NONE
NONE
NONE
Continue
117
Semester
Code
Special
Semester
2
COEB432
EHEB113
***
Semester
V
ECCB311
ECCB323
ECCB343
ECCB363
EEEB363
EEEB371
ICEB212
/
MCEB212
Semester
VI
Course
Hubungan Etnik
Total Credit Hours
Data
Structure
and
Algorithms
Wireless
and
Mobile
Communication
Total Credit Hours
ECCB412
Project I
EECB423
Data Communication
Network
Embedded Systems
EESB493
***
***
Prerequisite
ECCB243
NONE
3
NONE
NONE
1
3
NONE
ECCB213
EEEB363
NONE
3
3
EECB353
EECB353
NONE
NONE
3
EEEB233,
EEEB373
EEEB373
ICEB113 /
MCEB113
ECCB311
TECB213,
ECCB243
ECCB343,
EEEB363
EEEB373,
EEEB383
EEEB373,
EEEB114
NONE
EEEB323,
70 CH
NONE
ECCB243
ECCB412,
COEB314
ECCB243,
EEEB373
COEB422,
ECCB343
NONE
NONE
8
COEB422
1
2
16
1
2
and
3
3
Special
Semester
COEB314
Total Credit Hours
Industrial Training
Semester
VII
COEB442
ECCB424
Total Credit Hours
Project II
ECCB423
Operating Systems
3
EEEB403
3
***
Total Credit Hours
Continuation
Corequisite
NONE
NONE
Credit
Hours
2
3
3
3
16
4
4
2
4
NONE
NONE
NONE
NONE
NONE
NONE
NONE
3
15
127
Continue
118
Semester
Code
Course
Credit
PreHours
requisite
ECEB463
3
EEEB323
ECEB473
3
EEEB373
ECPB423
Systems-on-Chips
3
ECCB243,
EEEB373
ECPB433
Introduction
to
3
ECPB443
3
ECPB453
3
ECPB463
Advanced
Computer
3
ECCB243
Architecture
ECPB473
3
EECB473
3
EECB423
Electronics
EESB423
VLSI Design
3
EEEB373
EESB433
Analog IC Design
3
EEEB363
ECTB413
Antenna Systems
ECTB423
ECTB433
ECTB443
EECB433
EECB483
EECB493
Systems
Optics
Engineering
3
3
3
EEEB253
EECB423
ECCB123,
EECB353
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
3
3
EECB353
NONE
NONE
3
EEEB253
NONE
3
EEEB253
NONE
Continue
119
Semester
Code
Course
Credit
Hours
ECSB413
SCADA Systems
3
ECSB423
3
Simulation
ECSB433
Real Time Systems
3
ECSB443
Advanced
Digital
Signal
3
Processing
ECSB453
Computer Forensics
3
ECSB463
3
ECSB473
Computer Security
3
EEEB423
Control System II
3
EEEB473
Image Processing
3
EEEB493
3
EEEB513
EEIB413
AKPK111
EHEB113
ICEB113/
MCEB113
ICEB212/
MCEB212
ETIB113
MLKB113
KDKB113
SPRB113
KKSB113
RELB113
PKIB113
SPYB113
MANB113
FRAB113
GERB113
JAPB113
Computer-Controlled
Systems
Process
Control
Instrumentation
3
&
3
Personal
Financial
1
Management
Hubungan Etnik
3
3
3
3
Asia
Prerequisite
EECB353
EEEB383
NONE
NONE
ECCB233
EEEB363
NONE
NONE
EEEB323
EEEB363
EEEB323,
EEEB114
EEEB323
NONE
NONE
NONE
NONE
NONE
NONE
NONE
EEEB323,
MEHB213
NONE
EEEB323
NONE
EEEB373
NONE
NONE
NONE
ICEB113/
MCEB113
NONE
NONE
Bahasa
Kebangsaan
A
3
3
3
Workplaces
3
3
Creative Thinking
3
Introduction
to
Social
3
Psychology
Mandarin Language
3
Basic French
3
Basic German
3
Japanese Language
3
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
120
Structure for International Students (for January Intake starting from Special
Semester 2016/2017)
Semester
Code
Course
Special
Semester
1
MALB103
Semester
I
ECCB111
Malay
Language
for
Advanced
Calculus
&
Analytical Geometry
Total Credit Hours
(Workshop)
Circuit Theory
Measurement Lab
Linear Algebra
Total Credit Hours
Object
Oriented
Programming
International
MPU
Compulsory [U2]
Total Credit Hours
Numerical
Methods
for
Engineers
MATB113
ECCB114
EEEB111
EEEB114
MATB253
MATB143
Semester
II
ECCB123
ECCB213
EEEB163
EEEB161
ECB213
***
Semester
III
COEB223
ECCB233
EEEB141
EEEB233
EEEB253
***
Semester
IV
ECCB243
EECB353
EECB351
EEEB323
EEEB373
EEEB383
Signal & System
Waves
International
MPU
Compulsory [U3]
Total Credit Hours
Architecture
Control System I
Random Process
Total Credit Hours
Credit
Hours
1
Prerequisite
NONE
Corequisite
NONE
3
NONE
NONE
1
NONE
NONE
4
1
NONE
NONE
MATB143
ECCB114
4
3
3
16
3
3
NONE
NONE
NONE
NONE
NONE
NONE
ECCB114
EEEB114
NONE
NONE
3
1
3
3
ECCB114
NONE
NONE
NONE
NONE
EEEB163
NONE
NONE
EEEB114
3
MATB143,
MATB253
EEEB163
ECCB123,
EEEB111
ECCB114
MATB143,
ECCB114
NONE
16
3
ECCB233
NONE
EEEB233
NONE
EEEB233,
MATB143
ECCB233
EEEB233
NONE
EECB353
NONE
6
16
3
3
1
3
3
3
1
1
3
3
16
NONE
NONE
NONE
NONE
NONE
NONE
NONE
Continue
121
Semester
Code
Course
Special
Semester
2
COEB432
MASB113
***
Semester
V
ECCB311
ECCB323
Malaysian Study
International
MPU
Compulsory [U4]
Total Credit Hours
Data
Structure
and
Algorithms
Wireless
and
Mobile
Communication
ECCB343
ECCB363
EEEB363
EEEB371
Semester
VI
COEB422
Total Credit Hours
ECCB412
Project I
EECB423
Data Communication
Network
Embedded Systems
EESB493
***
***
Prerequisite
ECCB243
NONE
NONE
Continuation
Corequisite
NONE
NONE
NONE
1
3
NONE
ECCB213
EEEB363
NONE
3
3
EECB353
EECB353
NONE
NONE
3
EEEB233,
EEEB373
EEEB373
ECCB311
TECB213,
ECCB243
ECCB343,
EEEB363
EEEB373,
EEEB383
EEEB373,
EEEB114
NONE
EEEB323,
70 CH
NONE
ECCB243
ECCB412,
COEB314
ECCB243,
EEEB373
COEB422,
ECCB343
NONE
NONE
Credit
Hours
2
3
3
8
1
14
1
2
and
3
3
Special
Semester
COEB314
Total Credit Hours
Industrial Training
Semester
VII
COEB442
ECCB424
Total Credit Hours
Project II
ECCB423
Operating Systems
3
EEEB403
3
***
Total Credit Hours
3
3
16
4
4
2
4
NONE
NONE
NONE
NONE
NONE
NONE
3
15
127
Continue
122
Semester
Code
Course
Credit
PreHours
requisite
ECEB463
3
EEEB323
ECEB473
3
EEEB373
ECPB423
Systems-on-Chips
3
ECCB243,
EEEB373
ECPB433
Introduction
to
3
ECPB443
3
ECPB453
3
ECPB463
Advanced
Computer
3
ECCB243
Architecture
ECPB473
3
EECB473
3
EECB423
Electronics
EESB423
VLSI Design
3
EEEB373
EESB433
Analog IC Design
3
EEEB363
ECTB413
Antenna Systems
ECTB423
ECTB433
ECTB443
EECB433
EECB483
EECB493
Systems
Optics
Engineering
3
3
3
EEEB253
EECB423
ECCB123,
EECB353
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
3
3
EECB353
NONE
NONE
3
EEEB253
NONE
3
EEEB253
NONE
Continue
123
Semester
Code
Course
Credit
Hours
ECSB413
SCADA Systems
3
ECSB423
3
Simulation
ECSB433
Real Time Systems
3
ECSB443
Advanced
Digital
Signal
3
Processing
ECSB453
Computer Forensics
3
ECSB463
3
ECSB473
Computer Security
3
EEEB423
Control System II
3
EEEB473
Image Processing
3
EEEB493
3
EEEB513
EEIB413
MALB103
MASB113
Computer-Controlled
Systems
Process
Control
Instrumentation
3
&
3
Malay
Language
for
3
Malaysian Studies
3
Prerequisite
EECB353
EEEB383
NONE
NONE
ECCB233
EEEB363
NONE
NONE
EEEB323
EEEB363
EEEB323,
EEEB114
EEEB323
NONE
NONE
NONE
NONE
NONE
NONE
NONE
EEEB323,
MEHB213
NONE
NONE
NONE
NONE
NONE
FRAB113
Basic French
3
NONE
GERB113
Basic German
3
NONE
JAPB113
Japanese Language
3
NONE
MALB203
3
NONE
Student
MANB113
Mandarin Language
3
NONE
PKIB113
Creative Thinking
3
NONE
SPYB113
Introduction
to
Social
3
NONE
Psychology
RELB113
3
NONE
SPRB113
Sports
and
Recreation
3
NONE
HFTB113
Health and Fitness
3
NONE
ISWB113
3
NONE
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
124
LIST OF INDUSTRY ADVISORY PANELS
(IAP)
• Y. Bhg. Datuk Seri Ir. Hj Azman Mohd
President / Chief Executive Officer,
Tenaga Nasional Berhad.
• Y. Bhg. Dato’ Muhammad Razif Abdul Rahman
Vice President (Human Resource),
• Y. Bhg. Dato’ Ir. Aishah Dato’ Abdul Rauf
Member of Energy Commission.
• Rosman Hamzah
Director of Business Development,
ALSTOM Asia Pacific Sdn. Bhd.
• Mohamed Zaimir b. Mohamed Suffian
Senior Vice President, Project Development Division,
Syarikat Prasarana Negara Berhad.
• Ir. Dr. Zahrul Faizi Hussein
Head of Company (Chief Executive),
Malakoff Utilities Sdn Bhd.
• Eu Poh Leng
Staff Manager (MMTS),
NXP Semiconductor Malaysia Sdn. Bhd.
• Engr. Narendren Rengasamy
General Manager,
LM Lighting Malaysia Sdn Bhd (LIGMAN Malaysia)
• Elias Jailani
NPO Business Service Manager.
RU APAC & Japan, Nokia.
125
• Mr Lim Keng Hock
CEO,
Comintel Sdn. Bhd.
• Mr Wan Roz Wan Hussein
Business Development Director (COMINT),
Saab International Malaysia Sdn.Bhd.
• Mr Edward Yee Chee Kheong
Country Director,
Freshtel Group Sdn Bhd
• Mr Reza Mirkhani
Vice President,
Smart Grid Solutions, USA.
• Mr Giovanni Minetti
President and CEO,
Paradox Engineering SA, Switzerland.
EXTERNAL EXAMINER
• Professor Rodica Ramer,
School of Electrical Engineering and Telecommunications
Faculty of Engineering
UNSW Sydney NSW 2052 Australia
126
ADJUNCT PROFESSOR
• Ir. Cheang Kok Meng (Former Executive Director of IEM)
Education:
MBA (Strategy) (International Management Centre, UK)
Bachelor of Engineering (Electronics) (Univ. Of Western Australia)
Area of specialization / research interest:
Electronics, Broadcasting E-mail: [email protected]
• Ir. Megat Jalaluddin Megat Hassan
(Chief Strategic Officer Tenaga Nasional Berhad)
Education:
Bachelor of Engineering (Electrical) Hons University of Wollongong, Sydney
Australia
Area of specialization / research interest:
Corporate & Business Strategy, Utility Transformation, Smart Metering & Smart
Grid, Project Implementation, Program Management & Delivery, Performance
Management
Email: [email protected]
• Linganathan Thilainathan, CEng (CEO of Traconsult Sdn Bhd)
Education:
B Sc (Hons) Degree in Electrical/Electronic Engineering (Loughborough
University of Technology, United Kingdom)
127
Advanced Diploma in Business & Management (TL Institute / University of
Wales, Malaysia)
• Anthony Samy Rajamanickam (Head [Information and Communications
Technology]
Corporate Planning and Sustainability Department, Regulatory Economics and
Planning Division, Tenaga Nasional Bhd) Education:
M.Sc. (Communication Engineering and Digital Electronics), UMIST, UK
B.Sc. Hons. (Electrical Engineering), University of Toledo, USA
Diploma (Electrical Power Engineering), University Technology Malaysia
128
FACULTY MEMBERS
HEAD OF DEPARTMENT
Dr. Farah Hani binti Nordin
(Head of Department)
Education:
• Ph.D. in Electrical Engineering (Univ. Tenaga Nasional, Malaysia)
• M.Sc. in Control, Communications and Digital & Signal Processing
(Univ. of Strathclyde, UK)
• B. Eng. (Hons.) Electrical & Electronic Engr. (Univ. Tenaga Nasional,
Malaysia)
Area
of
specialization
/
research
interest:
• Artificial Intelligence
• Nonlinear System Identification
• Fault Identification
Office:
Phone ext.:
Email:
BN-2-030
2244
[email protected]
129
Dr. Norazizah binti Mohd Aripin
(Head of Unit- Academic(BEEE))
Education:
• Ph.D. in Electrical Engineering (Univ. Teknologi Malaysia, Malaysia)
• M. Eng.
Communications & Computer Engineering (Univ.
Kebangsaan Malaysia, Malaysia)
• B. Eng. Communication & Computer Engineering (Univ. Kebangsaan
Malaysia, Malaysia)
Area
of
specialization
/
research
interest:
• Wireless Communications
• Radio Resource Management for 3G-WCDMA System
• Digital and Microprocessor System
• Cognitive Radio & Smart Grid Communications
Office:
Phone ext.:
Email:
BW-2-C049
3232
[email protected]
Dr. Chau Chien Fat
MIEEE
(Head of Unit-Academic(BCCE))
Education:
• Ph.
D in Electronics and Electrical Engineering (Univ.
Southampton, UK)
• M. Sc. (Dist.) in Microelectronics Systems Design (Univ.
Southampton, UK)
of
of
• B. Sc. (H. Honors) Electrical Engineering (Michigan State Univ.,
USA)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Microelectromechanical systems (MEMS) incl.
BioMEMS, micro- and nano-fabrication
microfluidics,
• VLSI Design incl. digital system and IC design, microprocessor and
microcontroller
BN-3-018
7297
[email protected]
130
Associate Professor Dr. Cheah Cheng Lai
(Head of Unit-External Relations)
Education:
• Ph. D. in Communication Network Engineering (Univ.
Malaysia, Malaysia)
Putra
• M. Sc. in Computer and Communication Systems Engineering (Univ.
Putra Malaysia, Malaysia)
• B. Sc. in Microelectronics and Computer Science Combinations
(Campbell University, USA)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Telecommunications and data communication systems and networks
• Wireless and optical communication systems
BN-3-057
7294
[email protected]
Associate Professor Dr. Siti Fazlili Abdullah
PEng, CEng (UK), MIET
(Head of Unit- Student and Staff Affairs)
Education:
• Ph. D. in Materials Science (Univ. Kebangsaan Malaysia, Malaysia)
• M. Sc. in Physics (Univ. of Missouri-Kansas City, Missouri, USA)
• B. Sc. in Physics (Univ. of Missouri-Kansas City, Missouri, USA)
• Diploma Penterjemahan Khusus in ”Komunikasi Massa” (Dewan
Bahasa & Pustaka dan Persatuan Penterjemahan Malaysia, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Materials Science-Synthesis (microemulsion,
chemical codeposition, electrochemistry), fabrication (semiconductors- nMOS,
pMOS, CMOS), characterization (HPDSC, LPM, SAXS, UV-VisNIR, FTIR, XRD, SEM with EDXA, TEM, XPS), applications of
nanoparticles in lubricants in a Tribotronics System (4-ball tribo
system and pin on disc tribotester) and nuclear engineering
BA-3-072
7260
[email protected]
131
PROFESSORS/ READERS
Dato’ Professor Ir. Dr. Zainul Abidin bin Md Sharrif
(Emeritus Professor)
Education:
• Ph. D. in Electronic Engineering (Digit Slicing Architecture of Digital
Filters), (Loughborough University of Technology, UK)
• M. Sc. in Electronic Engineering (Digital Electronics), (Univ. of
Manchester Institute of Science and Technology (UMIST), UK)
• B. Sc.
(1st Class Hons.)
in Electrical & Electronic
Engineering,(Loughborough University of Technology, UK)
Area
of
specialization
/
research
interest:
• Digital Signal Processing (DSP)
• Image Processsing
• Applications of DSP in Smart Grid
• Condition Monitoring & Control
• Analysis and Black Box Modeling of Ratio Frequency Emission from
Electrical Appliances
Office:
Phone ext.:
Email:
BN-1-041
7219
[email protected]
Professor Dr. Ibrahim bin Ahmad
Education:
• Ph.D. in Electrical, Electronic & System Engineering (Univ.
• M. Sc. Analytical Physics (Univ. of Wales Swansea, UK)
• M. Sc. Nuclear Science (Univ. Kebangsaan Malaysia, Malaysia)
• B. Sc. Nuclear Physics (Univ. Kebangsaan Malaysia, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Microelectronic Devices and Packaging
• Semiconductor Material
• Failure Analysis and Reliability
BN-3-084
7284
[email protected]
132
Professor Dr. Chandan Kumar Chakrabarty
Education:
• Ph. D. (RF Plasma Technology) (Flinders Univ., Australia)
• M. Sc. (Pulsed Plasma Technology) (Univ. of Malaya, Malaysia)
• B. Sc. (Hons.) in Physics (Univ. of Malaya, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Radio Frequency and Microwave Technology
• Gas Discharge Physics
• Semiconductor Devices
BW-2-CO30
2340
[email protected]
Professor Dr. Md Zaini bin Jamaludin
(Managing Director, UNITEN R&D Sdn. Bhd.)
CEng (UK), MIET, SMIEEE
Education:
• Ph. D. in Communication and Network Engineering (Photonics and
Optical Communication) (Univ. Putra Malaysia)
• M. Sc. Electrical Engineering (Univ. of Hertfordshire, UK)
• B. Sc. Electrical Engineering (Univ. of Miami, Florida, USA)
• Diploma in Electronics Engineering (Institute Technology MARA)
Area
of
specialization
/
research
interest:
• Photonics Technologies
• Optical
• Network and Data communication Security
• Development Public Key Cryptography Technology
• Development Security System
• Biometrics and Biomedical Engineering
Office:
Phone ext.:
Email:
BJ-1-008
7305
[email protected]
133
Professor Ir. Dr. Norashidah Md. Din
PEng, CEng (UK), MIET, MIEM, MIEEE, MOSA
(Dean, College of Graduate Studies)
Education:
• Ph. D. in Electrical Engineering, (Univ.
Malaysia)
Teknologi Malaysia,
• M. Electrical Engineering (Univ. Teknologi Malaysia, Malaysia)
• B. Sc. Electrical Engineering (Memphis State Univ., USA)
Area
of
specialization
/
research
interest:
• RF Radiation Safety
• Intelligent Remote Monitoring System
• Multimedia Networks
• Internet QoS
Office:
Phone ext.:
Email:
Dean’s Office, Level 4, Admin Building, College of Graduate Studies
7302
[email protected]
Professor Ir. Dr. Tiong Sieh Kiong
P.Eng, MIEM, MIEEE, MIEICE
(Secondment to Power Engineering Center)
Education:
• Ph. D in Electrical, Electronics & System (Universiti Kebangsaan
Malaysia, Malaysia)
• M. Sc. Electrical In Telecommunication (Univ. Kebangsaan Malaysia,
Malaysia)
• B. Sc. (Hons.) in Electrical Engr. (Univ. Kebangsaan Malaysia,
Malaysia)
Area
of
specialization
/
research
interest:
• Wireless Communication System
• Digital Electronics and Microcontroller Systems
• Smart Monitoring System
• Automation System
Office:
Phone ext.:
Email:
BJ-1-009
2282
[email protected]
134
Professor Dr. Ong Hang See
(Deputy Dean, Research & Post Graduate)
Education:
• Ph. D. in Biomedical Engineering and Medical Physics (Univ. of
Minnesota, USA)
• M. Sc. Health Physics (Univ. of North Dakota, USA)
• B. Sc. Electrical Engineering (Univ. of North Dakota, USA)
Area
of
specialization
/
research
interest:
• Smart Grid
• Utility Communication
• Utility Analytics
• Internet of Things
Office:
Phone ext.:
Email:
BN-2-011 / BW-2-C029
2139/2339
[email protected]
Professor Dr. Razali bin Jidin
Education:
• Ph. D in Electrical Engineering & Computer Science (Univ. of Kansas,
Lawrence, USA)
• M. Sc. (Distinction) in Electricity Production Management (Univ. of
Leeds, UK)
• M. Sc. in Electrical Engineering (Univ. of Bridgeport, USA)
• B. Sc. (Magna Cum. Laude) in Electrical Engineering. (Univ. of
Bridgeport, USA)
Area
of
specialization
/
research
interest:
• Multiprocessor System on Chip (MPSoC)
• Field Programmable Logic Arrays (FPGA)
• Embedded System, Process Control
• Automation and Power Plant Operation Optimization
• Mechatronics
Office:
Phone ext.:
Email:
BN-3-050
7208
[email protected]
135
Associate Professor Dr. Abu Bakar Mhd Ghazali
Education:
• Ph. D. in Control Engineering (Univ. of Bradford, UK)
• M. Sc. in Electronics (Univ.
Technology, UK)
of Wales Institute of Science and
• B. Sc. in Physics (Univ. Kebangsaan Malaysia, Malaysia)
Area
of
specialization
/
research
interest:
• Technology of Charged Particle Accelerators
• Plasma Technology
• Nuclear Instrumentation
• Smart Building
• Intelligent Controls
• Fault Diagnosis
Office:
Phone ext.:
Email:
BN-2-032
2206
[email protected]
Associate Professor Dr. Agileswari K. Ramasamy
CEng (UK), MIET
Education:
• Ph. D. in Electrical Engineering (Univ. Tenaga Nasional, Malaysia)
• M. Sc. in Control Systems (Imperial College, UK)
• B. Sc. in Electrical Engineering (Purdue Univ., USA)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Control Engineering
• Energy Efficiency
• Power Quality
BN-1-030
2270
[email protected]
136
Associate Professor Ir. Dr. Chong Kok Hen
Education:
• Ph. D. in Control & Automation (Univ. Putra Malaysia, Malaysia)
• M. Sc. in Electronics Engineering (Univ. Putra Malaysia, Malaysia)
• B. Eng. Electrical & Electronics (Univ. Putra Malaysia, Malaysia)
Area
of
specialization
/
research
interest:
• Evolutionary Algorithm
• Genetic Algorithm
• Evolutionary Electronics
• Industrial Automation Control
Office:
Phone ext.:
Email:
BN-3-064
7276
[email protected]
Associate Professor Dr. Goh Su Mei
Education:
• Ph. D in Applied Mathematics (Univ.
Malaysia)
• M. Sc. in Applied Mathematics (Univ.
Malaysia)
Kebangsaan Malaysia,
• B. Sc. (Hons) in Mathematics (Univ. Malaya, Malaysia)
Area
of
specialization
/
research
interest:
• Dynamical systems
• Chaos theory
• Numerical analysis
• Analytical analysis
Office:
Phone ext.:
Email:
BN-3-081
7287
[email protected]
137
Associate Professor Dr. Jamaludin Bin Omar
MIEEE
Education:
• Ph. D. in Electronics (Rapid Prototyping of Digital System) (Univ. of
Bradford, UK)
• M. Sc. in Electronics, (Univ. of Manchester Institute of Science and
Technology, UK)
• B. Sc. (Hons.) in Electronics (Univ. Kebangsaan Malaysia, Malaysia)
Area
of
specialization
/
research
interest:
• Digital Electronics and Design
• Computer Engineering and Interfacing
• Data acquisition
• FPGA
• Software Development
Office:
Phone ext.:
Email:
BN-2-031
7271
[email protected]
Associate Professor Ir. Dr. Johnny Koh Siaw Paw
(Secondment to Uniten R&D)
Education:
• Ph. D. in Control and Automation Engineering (Univ. Putra Malaysia,
Malaysia)
• M. Sc. in Control and Automation Engineering (Univ.
Malaysia, Malaysia)
Putra
• B. Eng. (1st Class Hons.) in Electrical & Electronic Engineering
(Univ. Putra Malaysia, Malaysia)
Area
of
specialization
/
research
interest:
• Machine Intelligence and Automation Technology
• Laser and Robotics
Office:
Phone ext.:
Email:
BJ-1-002
2245
[email protected]
138
Associate Professor Dr. Yap Boon Kar
Education:
• Ph.D. in Experimental Solid State Physics, (Imperial College London,
UK)
• M. Sc. in Optics and Photonics (Imperial College London, UK)
• B. Eng. (Hons.) in Electrical & Electronics Engineering (Univ. Tenaga
Nasional, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Organic Semiconductor Devices - Polymeric Light-Emitting Diodes
(PLEDs), Organic Transistors, Organic Lasing Media.
• Inorganic Semiconductor Devices - Advanced insulated wire wire
bonding, Advanced copper wire bonding on ultra-low k wafer, Wafer
cutting processes, Polymer core ball bond, Silver plated copper filler,
Flux cleaning process
BN-3-040
2229
[email protected]
Associate Professor Dr. Yap Keem Siah
GMIEM, MIACSIT
(Director of Marketing & Corporate Communication)
Education:
• Ph. D. in Electrical and Electronics Engineering (Univ.
Malaysia, Malaysia)
Sains
• M. Eng. Electrical (Univ. Teknologi Malaysia, Malaysia)
• B. Eng. Electrical (Univ. Teknologi Malaysia, Malaysia)
Area
of
specialization
/
research
interest:
• Theory and Application of Artificial Neural Networks and Fuzzy Logic
Systems
• Mobile Robotic
• Computer Vision and Image Processing
Office:
Phone ext.:
Email:
BA-4-060
7309
[email protected]
139
SENIOR LECTURERS
Dr. Ahmad Wafi Bin Mahmood Zuhdi
Education:
• Ph.D Microelectonics Engineering (University of Edinburgh, UK)
• M. Eng. in Electronics and Electrical Engineering (Univ.
Edinburgh, UK)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
of
• Analogue-Mixed Signal VLSI
• Visible Light Communication (VLC)
BN-3-021
6414
[email protected]
Dr. Aidil Azwin bin Zainul Abidin
(Secondment to COGS)
Education:
• Ph.D. in Engineering (Univ. Tenaga Nasional, Malaysia)
• M. Electrical Engineering (Univ. Tenaga Nasional, Malaysia)
• B. Sc. Electrical Engineering (Indiana Univ. Purdue Univ. (IUPUI),
Indianapolis, USA)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Controls and Signal Processing
BA-4-029
7324
[email protected]
Ayuniza binti Ahmad
Education:
• M. Eng. Communications & Computer Eng, (Univ. Kebangsaan
Malaysia, Malaysia)
• B. Eng. in Electrical-Electronic.
Malaysia, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
Engineering (Univ.
Teknologi
• Digital Electronics
• DSP
• Microprocessor Systems
BN-3-046
2278
[email protected]
140
Dr. Azni Wati binti Azizan
Education:
• Ph. D. in Engineering (Univ. Tenaga Nasional, Malaysia)
• M. Sc. Microelectronics (Univ. Kebangsaan Malaysia, Malaysia)
• B. Sc.
in Electrical Engr.
Massachusetts, USA)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
(Worcester Polytechnic Institute,
• Electronic System and Design
• Electronic Devices and Circuits]
BN-1-008
2248
[email protected]
Azrul bin Ghazali
Education:
• M. Sc. Microelectronics (Univ. Kebangsaan Malaysia, Malaysia)
• B. Sc. in Electrical Engr. (Vanderbilt Univ., USA)
Area
of
specialization
/
research
interest:
• VLSI Design
• IC fabrication
• Semiconductor
Office:
Phone ext.:
Email:
BN-3-036
2219
[email protected]
Dr. Fairuz bin Abdullah
(Secondment to iRMC)
Education:
• M.Sc. in Communication & Network Engineering (Univ.
Malaysia, Malaysia)
Putra
• B. Eng. (Hons.) in Electrical & Electronics Engr. (Univ. Tenaga
Nasional, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Photonic Technologies ÖăLaser, optical amplifiers, optical sensors
BW-2-C034
2376/7331
[email protected]
141
Dr. Fazrena Azlee binti Hamid
Education:
• Ph. D. in Electronics Engineering. (Univ. of Southampton, UK)
• B. Eng. (Hons.) in Electronics Engineering (Univ. of Southampton,
UK)
• BTEC National Diploma in Engineering (Coventry Technical College,
UK)
Area
of
specialization
/
research
interest:
• Electronic Systems Design
• Analogue & Mixed Signal
• VLSI,
• VHDL-AMS
• Design Automation
Office:
Phone ext.:
Email:
BN-3-029
2216
[email protected]
Dr. Goh Chin Hock
Education:
• B. Eng. (Hons.) in Electrical & Electronics Engr (Univ. Tenaga
Nasional, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Radio Frequency and Microwave Technology
• Smart Antenna
BW-2-C16
2395
[email protected]
Hazlinda binti Hakimie
Education:
• M. Eng.
Australia)
in Telecommunication Engineering (Monash Univ.,
• B. Eng. Electrical (RMIT Univ., Australia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Wireless Communication
• Intelligent Sensing and Processing System
• Telemetry System
BN-1-067
2266
[email protected]
142
Intan Shafinaz binti Mustafa
Education:
• M. Sc. in Communications and Network Engineering (Univ. Putra
Malaysia, Malaysia)
• B. Eng. (Hons.) in Electrical and Electronic Engineering (Coventry
Univ., UK)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Digital Image Watermarking
• GIS-based Multicriteria Spatial Decision Support System
• Communication Network]
BW-2-C014
3254
[email protected]
Dr. Jehana Ermy binti Jamaluddin
MIEEE
Education:
• M. Sc. in Digital Communications Systems (Loughborough Univ.,
UK)
• B. Eng. (Hons.) Electrical & Electronic Engineering (Univ. Tenaga
Nasional, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Digital Communications application in Mobile/Networking
• Channel Modeling and Error Control Coding in Power Line
Communication and Smart Grid
BN-3-080
2260
[email protected]
Dr. Leong Yeng Weng
Education:
• PhD in Engineerig (Kanazawa University, Japan)
• B. Eng (Hons.) Electrical & Electronic Engineering (Univ. Tenaga
Nasional, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Lightning and Electronics
BN-1-058
2224
[email protected]
143
Mohd Zafri bin Baharuddin
(Study Leave)
Education:
• M. Eng. Electrical-Mechatronics Engineering (Univ.
Malaysia, Malaysia)
Teknologi
Nasional, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Mobile Robotics
• Synthetic Aperture Radar
On Study Leave (Japan)
-
[email protected]
Nagaletchumi a/p Balasubramaniam
Education:
• M.Sc. in Computer Systems Engineering (Univ. Putra Malaysia,
Malaysia)
• B. Eng. (Hons.) Electrical Engr. (Univ. of Malaya, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Indoor Location Sensing
• Radio Frequency Radiation
BN-W-C012
3260
[email protected]
Dr. Noor Shamsiah Othman
(Secondment to College of Graduate Studies)
Education:
• Ph.
D. in Electronics and Electrical Engineering (Univ.
Southampton, UK)
of
• M. Sc. in Microwave and Optoelectronics (Univ. College London,
UK)
• B. Eng. (Hons.) in Electronic and Electrical Engineering (Univ.
College London, UK)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Mobile Communications,
including Wireless
Communications, Joint-source Channel Coding,
Multimedia
Cooperative
BA-4-057
7304
[email protected]
144
Dr. Normy Norfiza binti Abdul Razak
(Secondment to iRMC)
Education:
• Ph.D. in Bioengineering:
Canterbury, New Zealand)
Physiological Control (University of
• M. Sc. in Electrical Engineering (Univ. of Nottingham, UK)
Nasional, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Modeling of temperature distribution in 2D and 3D using TLM
methods
BA-3-60, Admin Building, Research Management Centre (iRMC)
7321
[email protected]
Dr. Nurul Asyikin binti Mohd.Radzi
Education:
Nasional, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• IP-Optical and QoS
BW-2-C15
2350
[email protected]
Sharifah Azwa binti Shaaya
Education:
• M. Eng.
Electrical-Electronics and Telecommunications (Univ.
Teknologi Malaysia, Malaysia)
• B. Eng. (Hons.) Electrical & Electronic Enguneering (Univ. Tenaga
Nasional, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Communication
BN-3-072
7249
[email protected]
145
Syed Khaleel Ahmed
Education:
• M. Sc. Electrical and Computer Engr. (Communication and Control
Systems) (Univ. of Massachusetts at Amherst, USA)
• B. E. Electrical and Electronics Engr. (College of Engr., Guindy, Anna
Univ., India)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Robust Control
• Signal and Image Processing
• Numerical Analysis
BN-3-047
2276
[email protected]
Dr. Tiagrajah V. Janahiraman
Education:
• M. Eng. Electrical (Univ. Teknologi Malaysia, Malaysia)
• B. Eng. (Hons.) Electrical (Electronic) (Univ. Teknologi Malaysia,
Malaysia)
Area
of
specialization
/
research
interest:
• Artificial Neural Networks
• Computer Vision Systems and Image Processing
• Software Development
• Data Classification
• Object Detection & Recognition
• DSP Processors
Office:
Phone ext.:
Email:
BN-1-065
7265
[email protected]
146
Wong Hung Way
Education:
• M. Sc. Electrical Engineering (Univ. of Sydney, Australia)
• B. Sc. (Hons.) Electronics (Salford Univ., UK)
Area
of
specialization
/
research
interest:
• Development and Analysis of Steganography Technique
• Developing Numerical Techniques
Electromagnetic Problems
for
Solving
for
Solving
• Development of Android Applications
Office:
Phone ext.:
Email:
BN-1-052
7227
[email protected]
Yanti Erana binti Jalil
Education:
• M. Sc. in Digital Communications Systems. (Loughborough Univ.,
UK)
• B. Eng. (Hons.) in Electrical - Telecommunications Engineering
(Univ. Teknologi Malaysia, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Antennas and Propagation
• RF Engineering
BW-2-C017
3237
[email protected]
Zalina binti Hashim
Education:
• M. Sc. in Accounting & Development Finance (Univ. of Birmingham,
UK)
• B. Mgnt (Hons.) Majoring in Accounting & Finance (Univ. Sains
Malaysia, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Green Environment
• Management Accounting
• Entrepreneurship
BA-3-076
7319
[email protected]
147
Dr. Zeti Akma binti Rhazali
Education:
• Ph.D. in Electrical Engineering (Univ. Malaysia Pahang, Malaysia)
• M. Sc. in Electrical, Electronics & Systems Engineering (Univ.
• B. Eng. (Hons.) in Electrical, Electronic & System Engineering (Univ.
Area
of
specialization
/
research
interest:
• Mobile Radio, Space and Satellite Communications
• Antenna Analysis and Design
• Microwave and Propagation Studies
• Ionosphere Communication Studies
Office:
Phone ext.:
Email:
BN-3-019
7239
[email protected]
LECTURERS
Aiman bin Ismail
Education:
Nasional, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• RF Radiation Safety
• optical communication
BW-2-C11
2319
[email protected]
148
Azlina binti Abdullah
Education:
• M. Eng. in Communications & Computer Eng. (Univ. Kebangsaan
Malaysia, Malaysia)
• B. Eng. in Computer Engineering (Univ.
Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
Teknologi Malaysia,
BW-2-C033
3234
[email protected]
Norani binti Atan
Education:
• B. Eng. Electrical Engineering (Univ. Teknologi Mara, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Computerization of signal strength measurements in mobile
telephone system
• Development of SAPF for power quality and Design of 18nm CMOS
gate length
BN-3-077
2290
[email protected]
Nur Badariah Ahmad Mustafa
(Study leave)
Education:
Nasional, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Digital Signal Processing
• Image Processing and Fuzzy Logic
On Study Leave (UKM)
2299
[email protected]
149
Prajindra Sankar Krishnan
Education:
Nasional, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Microprocessor based Design & Systems
• Wireless Communication System
• Evolutionary Algorithm
BN-1-063
7248
[email protected]
Savithry a/p K Thangaraju
Education:
• B. Eng. (1st Hons.) in Electronics System Design (Univ.
Northumbria at Newcastle UK)
Area
of
specialization
/
research
interest:
of
• Avionics
• Satellite Communication
• Complex Adaptive / Predictive System
• System Engineering
Office:
Phone ext.:
Email:
BN-3-065
6425
[email protected]
150
COURSE DESCRIPTIONS
• ECCB111 INTRODUCTION TO COMPUTER AND COMMUNICATION
ENGINEERING (WORKSHOP)
BCCE(Core)
An overview of the subject area through weekly seminars by academic and
industry experts. The topics covered will range from a historical overview of the
growth of the two fields to more recent developments, and the close
relationship between the two. It is hoped that this will provide a students with
a better perspective to the field and prepare them for the courses ahead.
• ECCB114 CIRCUIT THEORY
BCCE(Core)
Co-requisite: MATB143
This subject provides introduction to fundamental theories and essential
concepts for circuit analysis. This includes OhmÓş law, KirchoffÓş voltage and
current laws, superposition, Thevenin and Norton theorems in DC circuits,
transient RL and RC DC analysis, as well as analysis with ideal Op-amp circuitry.
Also covered are frequency-domain studies which includes AC circuit analysis,
transfer functions and two-port networks.
• ECCB123 ELECTRONICS ANALYSIS AND DESIGN
BCCE(Core)
Pre-requisite: ECCB114
This course introduces the fundamental features of basic electronic devices such
as diodes, BJTs and MOSFETs. Students will be exposed to types of diode and
their applications. Students will gain knowledge on basic DC and AC analysis
of circuit containing transistors, and also on the design of single stage amplifiers
and cascaded amplifiers.
• ECCB213 OBJECT ORIENTED PROGRAMMING
BCCE(Core)
Pre-requisite: EEEB114
An introduction of the process of program design and analysis for students with
some prior programming experience (functions, loops, and arrays implemented
in any programming language).
The course reinforces object-oriented
151
programming techniques in C# and covers basic of inheritance, polymorphism
and exception handling. Students will be able to design, build, test and debug
medium-size software systems and learn to use relevant software tools.
• ECCB233 DIGITAL SYSTEM DESIGN
BCCE(Core)
This course introduces the concept of designing robust and testable complex
sequential digital systems, which include synchronous and asynchronous
sequential systems, and Field Programmable Gate Array (FPGA)-based systems.
Additional topics discussed include design hierarchy and flow, the use of
hardware description languages (HDLs) in functional simulation, synthesis,
timing simulation and verification of digital systems, and the principal of
Design-for-Test for digital systems.
• ECCB243 COMPUTER ORGANIZATION AND ARCHITECTURE
BCCE(Core)
An introductory course to the principles and organization of modern computer
system built around the von Neumann architecture with emphasis on IA32
Architecture.
Introductory discussions are on terminology of computer
architecture, a layered model of computer architecture and computing platform
organization: CPU, memory, buses and I/O. CPU topics cover register
architecture, instruction set architecture (ISA), computer arithmetic, survey of
micro architecture (datapath and control).
Detail discussion on other
components of computing includes memory, buses and I/O. Introduce the
performance analysis of a CPU. A survey description of operating system
includes topics of scheduling and memory management. The course concludes
with brief overview of pipelining and superscalar processing.
• ECCB311 DIGITAL SIGNAL PROCESSING LAB
BCCE(Core)
Co-requisite: EEEB363
Generation of Sinusoidal Waveform, Modulation, Digital Process of Continuous
Time Signal using MATLAB; Generation of Sinusoidal signal, Loop Program
using Interrupt - Inputting signals to the TMS320C6713 DSP starter kit (DSK)
and outputting signals from DSK, Finite Impulse Response Digital Filter (FIR) Implementing a real time FIR digital filtering operations using the
TMS320C6713 DSP Starter Kit (DSK).
152
• ECCB323 DATA STRUCTURE AND ALGORITHMS
BCCE(Core)
An overview of how data can be organized, sort and search. Topics included are:
Linear data structure of array, list and linked-list, stack and queue. Non-linear
data structure of tree and graph. Some of the sorting techniques are bubble,
selection, insertion, merge and radix. Searching topics are linear search, binary
search, tree based searching techniques, and hash tables. NP-completeness, P
and NP classes of computational problems.
• ECCB343 DIGITAL COMMUNICATIONS
BCCE(Core)
Pre-requisite: EECB353
This subject introduces the principles of digital communications including the
fundamental concepts of coding and modulation techniques. Its introduction
begins with the fundamentals of information theory which is essential in the
digital communications. The assignment in this course will provide a basic
design problem to develop understanding of the most popular coding
techniques. This course covers information theory, source encoding, baseband
transmission, principles of digital modulation and error control coding.
• ECCB363 WIRELESS AND MOBILE COMMUNICATION
BCCE(Core)
This course discusses the fundamental and background in communication
circuit components. Overview of the basic modulator and demodulator circuits
such for amplitude and frequency modulation scheme. Topics includes of
analysis and design of radio frequency transmitters and receivers for
communication system such as carrier generator, power amplifiers, oscillators,
impedance matching network and mixers. The emphasis of this course is mainly
to focus on radio aspect of wireless and mobile communication systems.
Wireless technology of todayÓş and tomorrowÓş from first generation analogue
to modern multimedia system will be part of the topic discussed in this course.
Other topics such as frequency reuse, handoff, capacity planning, interference
and radio propagation are also included to provide solid fundamental
background in mobile radio communication.
• ECCB412 PROJECT 1
BCCE(Core)
Pre-requisite: ECCB343, EEEB363
The Final Year Project (FYP) is an engineering project that is related to the
studentÓş field of study and must be carried out by the student as partial
fulfilment for the award of the bachelorÓş degree. The final year project to be
carried out by a student can be in any of the following natures, encompassing
study/research, design/development, software development or case study.
153
• ECCB423 OPERATING SYSTEMS
BCCE(Core)
An Introduction of concepts and components of modern operating system.
Overview of computer system structures and operating-system structures.
Introduction to abstractions such as process, thread, IPC, etc.
Process
management: processes, threads, scheduling, synchronization and deadlocks.
Memory management; main and virtual. Storage management: file system,
mass storage and I/O system. Protection and Security. Distribution systems.
• ECCB424 PROJECT II
BCCE(Core)
Pre-requisite: COEB314, ECCB412
Continuation from Project I. The Final Year Project (FYP) is an engineering
project that is related to the studentÓş field of study and must be carried out by
the student as partial fulfilment for the award of the bachelorÓş degree. The
final year project to be carried out by a student can be in any of the following
natures, encompassing study/research, design/development, software
development or case study.
• ECEB463 ARTIFICIAL INTELLIGENCE & NEURAL-FUZZY SYSTEMS
BEEE(Elective), BEPE(Elective), BCCE(Elective)
This course is aimed at introducing the underlying concepts of artificial
intelligence and some of its techniques and their applications. Artificial
intelligence (AI) involves the development of algorithms derived from human
and animal intelligence which have capabilities such as learning, reasoning,
generalisation, adaptation, reproduction, etc. These techniques are getting
more popular nowadays due to the large number of successful report of their
implementation. AI techniques have also made their way into many domestic
and industrial and provided solutions to many difficult engineering problems.
From this course, the students should be able to understand the two popular
techniques of AI. Ie. Artificial neural networks and fuzzy logic and how they are
used in solving some engineering and also non-engineering problems.
• ECEB473 ADVANCED MICROPROCESSOR
Introduction to the 68000 Microprocessor. Software details of the 68000.
Exception processing. Hardware details of the 68000. Memory system design,
I/O system design. Building a working 68000 system. Introduction to the
advanced 680X0 series microprocessors.
• ECEB483 COMPUTER ARCHITECTURE
BEEE(Elective)
154
An introductory course to the principles and architecture of modern computer
system built around the con Neumann architecture. A layered model of
computer architecture. Computer systems organization: CPU, memory and I/O.
The digital logic level. The micro architecture level: data path, microinstruction
and design for simplify ISA. The instruction set architecture level: overview,
data types, instruction formats and types, addressing, and flow of control. The
operating system machine level: virtual memory and virtual I/O instructions.
The assembler language level: overview, macro, and the assembly process,
linking and loading.
• ECPB423 SYSTEMS-ON-CHIPS
BCCE(Elective)
An introduction to embedded system requirement, System-On-Chip (SoC) and
configurable soft-core processor. Implement hierarchical state machines design
using commercial EDA tools. Design and implement a custom IP core and
integrate it to the system busses. Implement simple low-level handler and test it
with the custom IP. Introduction to heterogeneous multi-core programming.
• ECPB433 INTRODUCTION TO COMPUTATIONAL BIOLOGY
BCCE(Elective)
Pre-requisite: TBD
This course presents an overview of important applications of computers to solve
problems in biology. Major topics covered are computational molecular biology,
biological modelling and simulation (including computer models of population
dynamics, biochemical kinetics, neuron behaviour, and mutation) and biological
imaging.
• ECPB443 MULTI-CORE PROGRAMMING
BCCE(Elective)
Pre-requisite: TBD
In this decade, the introduction of multi-core based system-on-chip (SoC) into
the computing market has created a revolution in the software industry. To
benefit from increases in hardware performance, software must be parallel. The
purpose of this course is to conduct the next generation of programmers to
develop exciting new applications that can take advantage of on-chip
parallelism. Over the past two years, every major microprocessor manufacturer
has introduced processor chips with multiple cores, with dual and quad core
processors for desktop and laptops, and over a hundred cores available in some
Graphics Processing Units. The expectation is that the number of cores per chip
will roughly double every two years while processor clock speeds will remain
relatively flat. This makes parallel programming a concern for the entire
computing industry. This course will provide an introduction to parallel
programming with a focus on the techniques that are most appropriate for
multi-core architectures and the use of parallelism to improve program
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performance. The topics of the course include performance analysis and tuning,
data and task parallelism, synchronization techniques, shared data structures,
and load balancing.
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• ECPB453 DATABASE PROGRAMMING
BCCE(Elective)
Pre-requisite: TBD
This course emphasizes on the concepts of database, file-based system versus
database systems, database environment, and database management system
(DBMS). This course also emphasizes on conceptual, logical and physical design
of development life cycle. The course also covers; Entity relationship diagram,
ERD and Enhanced Entity Relationship, EER Model, unnormalized normal form,
UNF, first normal form, 1NF and second normal form, 2NF normalization of
database.
• ECPB463 ADVANCED COMPUTER ARCHITECTURE
BCCE(Elective)
This is an advanced undergraduate and introductory post-graduate course on
contemporary computer and processor architecture. Overall, the course will
cover current and emerging trend in computer architecture. The topics include;
Fundamental of computer design, instruction set principles and examples,
instruction level parallelism (pipelining, superscalar, VLIW, etc.), memory
hierarchy Design, multiprocessors and thread level parallelism, storage system,
and case study of current system. The course has mix of theory and hand-on
with software based design simulation. Students are required to write a
technical paper on recent development of computer architecture. They also
expect to complete a mini-project on a simplified computer system design.
• ECPB473 SOFTWARE ENGINEERING
BCCE(Elective)
Pre-requisite: TBD
(Not available yet)
• ECRB412 PROJECT 1
Pre-requisite: EEEB323, EEEB363, EEPB353, EECB353
• ECRB424 PROJECT II
Pre-requisite: ECRB412, COEB314
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• ECSB413 SCADA SYSTEMS
BCCE(Elective)
The course will start by reviewing the objectives of implementation of
Distribution and Transmission Automation and Distribution and Transmission
SCADA History. The functions of SCADA System Elements will be explained
which include Transmission SCADA, Distribution SCADA , Host Equipment,
Host Computer System , Communication Front-End Processors, Full Graphics
User Interface , Relational Databases, Data Servers, and Web Servers and Host
to Field Communications. Detailed examinations into Field Devices will be
presented which includes Modern RTU, PLCs and IEDs that covers Substation
and Line configuration.
It will also touches on Tactical and Strategic
Implementation Issues, Distribution Management Platform and Advanced
Distribution Applications. The future trend in applications will be towards
integrated SCADA System and Smart Grid with Trouble Call and Outage
Management System and Distribution Operations Training Simulator that
considers Security, Practical Considerations and Choosing the Vendor. Latest
applications for Smart Grids will be introduced including remote metering,
remote billing, demand side management etc. Finally, the course will introduce
the importance of Standards that covers Internal Standards and Industry
Standards as well as Deployment Considerations.
• ECSB423 INTRODUCTION TO MODELING AND SIMULATION
BCCE(Elective)
An introduction to system modelling using computer simulation and analytical
mathematical techniques. Explanation of model classification such as Monte
Carlo simulation, discrete-event simulation, continuous system simulation,
mixed continuous/discrete-event simulation.
Discussion on quantitative
modeling paradigms such as queuing networks, stochastic process algebras and
stochastic Petri nets. Input-output analysis such as random number generator,
sample generation, trace- and execution-driven simulation, point and interval
estimation.
Focus of applications and case-study will be computer and
communication engineering.
• ECSB433 REAL TIME SYSTEMS
BCCE(Elective)
An introduction to real-time systems (RTS), followed by definition of terms used,
scheduling, RTOS and selected topics in real-time networking.
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• ECSB443 ADVANCED DIGITAL SIGNAL PROCESSING
BCCE(Elective)
Students learn the essential advanced topics in digital signal processing that are
necessary for successful graduate-level research. The course includes a review
of the linear constant-coefficient system properties covered in an undergraduate
DSP course, and then examines a variety of multirate filter structures,
time-varying and adaptive systems, fast algorithms, and other topics relevant to
the research areas of the students.
• ECSB453 COMPUTER FORENSIC
BCCE(Elective)
Pre-requisite: TBD
This course teaches how to perform computer crime investigations. The course
covers the recovery and analysis of digital evidence, addressing legal and
technical issues. Forensic examination techniques of Windows and Unix systems
are used to illustrate typical investigation processes.
• ECSB463 INTERNET PROGRAMMING
BCCE(Elective)
Pre-requisite: TBD
This course introduces the fundamentals of internet and world wide web. The
concept of HTML, XHTML and CSS are also detailed. The course also covers the
creation of Internet based applications using the Java Scripts programming
language. It provides an in-depth knowledge for the creation of dynamic web
application with enhanced features by introducing various programming
techniques XML and RSS using Java Scripts.
• ECSB473 COMPUTER SECURITY
BCCE(Elective)
Pre-requisite: TBD
This course introduces the basic concepts of computer and internet security.
Students will learn a full range of security concepts & techniques and apply
them to the most popular operating systems and applications used today. Topics
include basic cryptography & public key infrastructure, theory behind common
attack and defence techniques, operating system security, programme security,
and distributed systems security.
• ECTB413 ANTENNA SYSTEMS
BCCE(Elective)
This subject is intended primarily for students who wish to specialise in
communication systems and would like to understand the principles and
current practice in wireless communication including both antennas and
propagation aspects. Its introduction begins with the basic properties of
electromagnetic radiation, before the subject dwells into antennas. In the rest
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of the subject, the circuit models on antenna, different type of antennas from
dipoles to log periodic, loop to spiral and helical coil, and lastly reflector and
aperture type antennas will be dealt with comprehensively. The phase array
antenna in particular to the application of tracking will be introduced. And the
applications of some of these antennas in communications systems will be
discussed thoroughly. Some minor assignments pertaining to antenna selection
and design for specific purposes using simulation softwareÓş will be given to
the students to gauge their understanding of the subject.
• ECTB423 BROADBAND TECHNOLOGIES
BCCE(Elective)
This course provides basic concepts in broadband communication and
networking. It provides an overall look at many type of equipment and
infrastructures that can be used in both fixed and wireless system today.
• ECTB433 COMMUNICATION ELECTRONICS
BCCE(Elective)
Pre-requisite: ECCB123, EECB353
impedance matching network and mixers.
• ECTB443 OPTICAL COMMUNICATIONS
BCCE(Elective)
Pre-requisite: TBD
This subject is concerned with the fundamentals of optical communications
systems.
Its introduction begins with the optical fibber communication
technology and fundamentals, historical generations of optical communications
and advantage and limitation of optical fibber communications. Topics covered
under this subject include the working principles of optical sources, optical
amplifiers, optical transmitter and receivers. In addition this course discusses
the fibber nonlinearities and their related effects in optical fibber
communication. Furthermore, this course introduces optical transmission
hierarchy and principles of optical networking with an emphasis on some
optical communication systems applications such as local area network and
optical access network.
• EECB351 COMMUNICATION SYSTEM LAB
BEEE(Core), BEPE (Core), BCCE(Core)
Co-requisite: EECB353
This course will expose students to the actual application of the communication
theory and concept that provides the students with hands on experience
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experimental results analysis that could supplement their theory course on
communication system
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• EECB353 COMMUNICATION SYSTEM
BEEE(Core), BCCE(Core)
This course begins by introducing the basic components in communication
system.
Students will have clear understanding of analog and digital
modulation, digital transmission, noise in modulation system, noise analysis,
multiplexing and multiple access.
• EECB423 DATA COMMUNICATION AND NETWORKS
Pre-requisite: EEEB383, EEEB373
Transmission Media (telephone system, ISDN, ATM, cellular radio, satellites),
Data transmission (synchronous and asynchronous transmission, error
detection and correction, data link protocols), LANs, WANs, MANs,
internetworking, routing, congestion control, Transport protocols (TCP and
UDP),
Application
support
protocols
(session,
presentation),
Application-specific protocols (TELNET, FTP, SMTP)
• EECB433 APPLIED TELECOMMUNICATION SYSTEMS
BEEE(Elective), BCCE(Elective)
This course will enable the students to gain insight into some of the state of the
art technologies and the important aspects of the up to date
telecommunications system applied in the current and future network
especially in Malaysian Network. Students will have clear understanding of the
behaviour and specialised concept of Telecommunication Network components.
Emphasis will be given on various Switching, Transmission and Signalling
System, which will enable the students to develop expertise in the applied
telecommunication system.
• EECB473 DATA NETWORK ARCHITECTURE AND ELECTRONICS
Review of data network architectures and technologies. An overview of current
networking electronics. An overview of network services and application.
Application bandwidth and delay requirements: Calculation and measurement.
Introduction to network design issues (bandwidth-delay product, throughput,
etc), design parameters and design process. Design parameters measurement
tools and techniques. Requirements Analysis: Concepts, Guidelines and
Practice. Capacity planning and traffic analysis: Throughput calculation,
probability models for traffic and design based on traffic model. Flow analysis:
Concepts, Guidelines and Practice.
Logical Design: Technology choice,
interconnect mechanism, network management and security. Physical Design:
Cabling and devices placement. Routing and addressing design. Network
simulation: Techniques and tools. Traditional network devices: Architecture,
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components and software. Designing various specialized network devices
architecture based on performance requirement.
Introduction to packet
processor:
Operating principles and application.
Packet processor
programming, simulation and design. Case Study: Packet processor in QoS
switches.
• EECB483 OPTOELECTRONICS AND FIBRE OPTICS
Pre-requisite: EEEB253, EECB353
Basics element of optics; Lights sources Öălasers and light emitting lasers: light
detectors, sensors and display; light modulations Öăelectrooptical; acousto
optical; magnetooptical; fiber optics.
• EECB493 RADIO-FREQUENCY / MICROWAVE ENGINEERING
Transmission Lines and Smith Chart, Matching Networks, Scattering
Parameters, Solid-state Microwave Monolithic IC, Microwave Passive
Components, Generators and Antennas.
• EEEB111 ELECTRICAL/ELECTRONICS MEASUREMENT LABORATORY
BEEE(Core), BEPE(Core), BCCE(Core)
Co-requisite: EEEB113 (for BEEE & BEPE) or ECCB114 (for BCCE)
Experimental exercises in use of electronics instruments/equipment. Voltage,
current, impedance, frequency and waveform measurements. Transient and
frequency response. Application of operational Amplifier. Elements of circuit
modelling and design.
• EEEB113 CIRCUIT ANALYSIS I
BEEE(Core), BEPE(Core)
Circuit elements voltage-current characteristics, independent and dependent
sources. KirchoffÓş laws nodal analysis, mesh current, source transformation.
TheveninÓş and NortonÓş theorems. Superposition principle. Operational
Amplifier terminal behaviour. Transient response of RC, RL and RLC circuits.
Sinusoidal steady-state and impedance. Instantaneous and average power.
Computer simulation tool (Pspice) in analysing electric circuits.
• EEEB114 PROGRAMMING FOR ENGINEERS
BCCE(Core), BEEE(Core), BEPE(Core)
The main objective of this course is to apply engineering methods to design
program solutions as being cohesive, readable and reusable on a standard
programming language.
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• EEEB123 CIRCUIT ANALYSIS II
The course is a continuation of the EEEB113 course. Briefly, this course covers:Analysis of single-phase circuits and balanced three-phase circuits, and
magnetically coupled circuits including mutual inductance concept &
transformers; all in complex plane. Determination of frequency response via
transfer functions, Bode plots series and parallel resonance circuits, passive and
active filter designs (low-pass, high-pass, band-pass and band-stop). The
utilization of Laplace Transform technique to analyze linear circuits with and
without initial conditions, and relationship between the transfer function and
the impulse response of a circuit.
Derive Fourier series expressions of
waveforms and analysis of linear circuits using Fourier series.
The
characterization of circuits based upon impedance, admittance, and transfer
function parameters i.e. input-output characterization of a circuit as a two-port
network.
• EEEB141 ELECTRONICS DESIGN LABORATORY
Pre-requisite: EEEB111 (BCCE to include ECCB123)
Co-requisite: EEEB143 (NONE for BCCE)
Laboratory experiments in the measurement of electronic device characteristics
Öădiodes, Bipolar Junction Transistors (BJTs) and Field Effect Transistors
(FETs). Also involve design and analysis of electronic circuits such as rectifiers,
regulators, biasing networks, small-signal amplifiers and active filters. Students
will also simulate and analyze the circuit designed using CAD tools.
• EEEB143 ELECTRONICS ANALYSIS & DESIGN I
as diodes, FETs and BJTs. Students will gain knowledge on basic DC and AC
analysis of circuit containing such devices, and also on the design of simple
rectifier circuits and single stage amplifiers.
• EEEB161 DIGITAL LOGIC DESIGN LABORATORY
A series of laboratory projects dealing with the design, simulation, building and
testing of logic circuits. Projects chosen to reinforce material presented in
EEEB163 lecture. Written reports required.
• EEEB163 DIGITAL LOGIC DESIGN
Pre-requisite: EEEB113 (for BEEE and BEPE) or ECCB114 (for BCCE)
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An introduction to digital circuit and system design. Emphasis is on practical
design techniques and circuit implementation. Among the topics covered are
number systems and codes, Boolean Algebra, logic gates and flip-flops, electrical
characteristics, propagation delay and timing analysis, combinational logic
circuits, sequential (synchronous and asynchronous) logic circuits, arithmetic
circuits, digital subsystems and MSI logics such as counters, registers, encoders,
decoders, multiplexers, demultiplexers and code converters; memory and
programmable logic devices and digital systems design with top-down and
bottom-up structured design procedures including the use of CAD tools.
• EEEB233 SIGNALS AND SYSTEMS
Signal and system modeling concept, system analysis and design in both the
time-domain and frequency-domains. Continuous-time linear systems: Fourier
Series, Fourier Transform, bilateral Laplace Transform, application of Laplace
Transform. Discrete-time linear systems: difference equations, Discrete-Time
Fourier Transform, Z-Transform. Sampling, quantization, and discrete-time
processing of continuous-time signals.
• EEEB253 ELECTROMAGNETICS FIELDS & WAVES
Pre-requisite: MATB143 and [EEEB123 (for BEEE and BEPE) or ECCB114 (for
BCCE)]
Study of vector calculus, electrostatics and magnetostatics.
MaxwellÓş
equations. Introduction to electromagnetic waves, transmission lines and
radiation from antennas.
• EEEB273 ELECTRONICS ANALYSIS & DESIGN II
A continuation of EEEB143. The main objective of this course is to introduce
integrated circuit (IC) design and analysis. Concepts and application of basic
analog IC building blocks, such as current sources (as biasing and active loads),
differential amplifiers and output stages are used to understand the
fundamentals of the design of multistage amplifiers. Then, the application of
operational amplifier as an ideal device is studied, followed by the typical
applications of operational amplifier in electronics design.
• EEEB281 ELECTRICAL MACHINES LABORATORY
BEPE(Core)
The experiments in this course have been designed to support the theory study
in EEEB283/EEEB344: Electrical Machines and Drives course. The objectives of
this course are to provide students with basic knowledge and understanding of
electrical machinery and skills in doing measurement using measurement
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equipment on electrical quantity. Laboratory experiments supplement the
theory with suitable practical, prove some theories, examine the accuracy of the
widely used approximate analytical methods and demonstrate basic practical
testing techniques of AC and DC machines.
• EEEB283 ELECTRICAL MACHINES & DRIVES
Pre-requisite: EEEB113, MATB113
The course begins by reviewing fundamental theories and laws pertaining to
magnetic and magnetically coupled circuits and also the principles behind
electromechanical energy conversion.
This will lead to studies of the
characteristics of dc machines, induction, synchronous machines and motor
drives. The course will also cover the application aspects of these devices in
industry. Students will do practical work and tests on selected devices covered
in this subject in EEEB281 Electrical Machines Laboratory.
• EEEB323 CONTROL SYSTEMS I
Pre-requisite: MATB143, EEEB233
Introduction to control systems-open loop and closed loop system; Laplace
transform; Modelling of continuous time systems (electrical and mechanical
systems); block diagrams and signal flow graphs; Time response analysis;
Steady state error; stability analysis; root locus; Frequency response and
Compensator Design.
• EEEB363 DIGITAL SIGNAL PROCESSING
Introduction to analysis, design and realization of digital filters. Discrete-time
signals, linear shift-invariant systems, sampling, Z transform, discrete Fourier
transform, Fast Fourier Transform, digital filter design Öăfinite impulse response
and infinite impulse response, quantization, finite word length. Introduction to
general applications of digital signal processing: modem, image processing, voice
synthesis, industrial control. Introduction DSP hardware; data acquisition system
and processor.
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• EEEB371 MICROPROCESSOR SYSTEMS LABORATORY
Introduction to PIC18 micro-controller assembly and high level language
programming, debugging and design using simulator, memory address
decoding, interrupts, parallel port, serial communication, timer, and A/D
converter.
• EEEB373 MICROPROCESSOR SYSTEMS
The course begins by reviewing digital electronics with emphasis on number
systems and architecture of a microprocessor-based embedded system.
Attention is then focused on the architecture of a PIC18 microcontroller.
Throughout the course, programming is taught using assembly language and C
with the aid of MPLAB IDE and C compiler. Included in the course, is
programming of selected I/O devices within the PIC18 with external
interfacing, implemented using polling and interrupt I/O techniques.
• EEEB383 RANDOM PROCESS
Introduction to probability models in Electrical and Computer Engineering.
Probability Theory, Discrete and continuous random variables. Probability
Distribution: Binomial, Gaussian and Poisson. Application of the distribution
functions. Discrete and continuous random processes. Entropy. White Noise.
Computer method for synthesis and analysis of random processes.
• EEEB393 POWER ELECTRONICS
BEEE(Elective), BEPE(Core)
The course initially reviews fundamental concepts of power electronics circuits
which covering circuits such as rectifiers, dc?dc and inverter circuits. The course
also introduces the different types of switching devices including diodes, BJTs and
Thyristor based devices. The course provides analysis of the above mentioned
circuits using relevant formulae and performance assessment of these circuits
designed using circuit simulation. Students perform practical work and tests on
selected devices covered in this subject during the lab sessions.
• EEEB403 CAPSTONE DESIGN COURSE
Pre-requisite: COEB422 and [EEEB323, EEEB363 (for BEEE and BEPE) or
ECCB343 (for BCCE)]
The Capstone Design Course is a group-based design course to expose students
with real engineering problems which includes exposure to the importance of
project planning and management, communication skills and team work.
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• EEEB423 CONTROL SYSTEMS II
BCCE(Elective), BEEE(Elective), BEPE(Elective)
Introduction to Discrete-Time Control System.
Review of Mathematical
Foundation. Analysis of Discrete-Time Systems. Design of Conventional
Discrete-Time Controllers. State Space Analysis of Continuous-Time Linear
Systems. Design of State Controllers and observers.
• EEEB443 CONTROL AND DRIVES
BEEE(Elective), BEPE(Elective)
The course begins by introducing the basic components of electric drives in which
the speed and torque of electric motors are controlled using power electronic
converters depending on the drive application. Thus, the dynamic model of dc
motors and induction motors will be derived in this course. This will lead to the
study on controlled-rectifier and chopper controlled dc motor drives under openloop and close-loop operation. The induction motor drives will cover the scalar
and field orientation control methods.
• EEEB473 IMAGE PROCESSING
Linear systems and Fourier transforms in two and three dimensions, Basic
image processing, Theory and algorithms for image reconstruction from
projections, Physics of imaging systems including magnetic resonance, X-ray
tomography, positron emission tomography and biomagnetic imaging.
• EEEB493 INTRODUCTION TO ROBOTICS
Introduction to robot fundamentals, geometry of workspace, kinematics
equation, inverse kinematics, trajectory planning, dynamics and control. Using
programming languages to command a robot to perform specific tasks.
• EEEB513 COMPUTER CONTROLLED SYSTEMS
BEEE (Elective), BCCE(Elective)
Introduction to discrete time control systems; Analysis of discrete-time control
systems; Design of controllers for discrete time systems; Use of MATLAB to design
discrete time controllers; Realization of Digital Controllers.
• EEIB413 PROCESS CONTROL AND INSTRUMENTATION
BCCE(Elective), BEEE(Core), BEPE (Core)
Pre-requisite: EEEB323, MEHB213
Modelling and simulation of process control loop. Laplace transform and
behaviour of first, second and higher order systems. Sensors, actuators and
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controllers. Frequency response analysis. Advanced control system. Controller
design. Digital control technique. Process control design.
• EEPB353 ELECTRICAL POWER SYSTEM I
Power Systems 1 is the first course in the power system engineering sequence.
The course presents engineering techniques of power system analysis used in
the power industry today in sufficient depth to give the students the basic tools
for investigating power system issues at the undergraduate level. It is intended
for the students to develop a sound understanding of a broad range of topics
related to modeling of power system components and analyzing their interactions
under steady state conditions, as well as their deployments in coordinated power
network operations.
• EEPB383 ELECTRICAL POWER SYSTEM II
BEPE(Core), BEEE(Elective)
Pre-requisite: EEPB353
The course is a continuation from the course EEPB353, Electrical Power System
I. While Electrical Power System I deals primary on steady state phenomena of
power systems, Electrical Power System II covers transient related events of
power systems such as fault analysis and stability analysis. In addition, a
chapter on optimal dispatch of power generation is also included. Fundamental
theories and mathematical equations on transient phenomena of synchronous
machines are discussed. This leads to the analysis of balanced and unbalanced
faults in power systems. Solutions for unbalanced faults are approached using
symmetrical components analysis. The course also covers the fundamental
concept of the behavior of synchronous machines after a disturbance, i.e,
steady-state and transient stability.
• EEPB413 ELECTRICAL INSTALLATIONS
BEPE (Elective)
The course introduces the basic engineering principles for electrical installation
methods, codes and standards. The core of the course in on the design of
electrical systems for residential, commercial and industrial sectors with
emphasis on grounding and voltage drop calculation.
• EEPB423 ELECTRICAL SAFETY AND HAZARDS
BEPE (Elective)
The course is designed to include the basics of electrical hazards and safety
related work practices in compliance with national codes and health standards.
Personnel safety and the use of personal protective equipment at various
occupational locations will also be covered.
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• EEPB463 HIGH VOLTAGE TECHNOLOGY
BEPE(Core)
This course covers topics under high voltage engineering fundamentals
including conduction and breakdown in gases, conduction and breakdown in
liquid dielectrics, breakdown in solid dielectrics, generation of high voltages
and currents, measurement of high voltages and currents, non-destructive
diagnostic testing, overvoltage phenomena and insulation coordination.
• EEPB473 POWER SYSTEM PROTECTION
BEPE(Elective)
To expose students to the protection philosophies employed by power utilities
especially TNB. Students are introduced to elements such as protection zones,
types of faults, CTs and VTs. Protection philosophies covered include those used
in distance protection, auto-reclosing schemes, transmissions lines, substations
and generators.
• EEPB493 HVDC AND FACTS DEVICES
BEPE(Elective)
Pre-requisite: EEEB393, EEPB353
The course covers key component of HVDC and FACTS devices i.e. SVC,
STATCON and SMES technology devices which is becoming more common in
power systems today. The course will look at each systems capabilities and
limitations.
• EESB313 SEMICONDUCTOR DEVICES
BEEE(Core)
BASIC CONCEPTS: Electric field and related phenomena, Capacitance &
dielectrics, current & resistance; Magnetic field and related phenomena; Energy,
kinetic & thermal; Mobility & conductivity. ENERGY BAND STRUCTURE: Basis
of semiconductor behaviour, Bohr Atomic Model, bonding forces in solids,
covalent bonds; Band structure of solids: metals, insulators & extrinsic
semiconductors; Nearly Free Electron Model, direct-gap and indirect-gap
semiconductors; Optical transitions in a semiconductor. CHARGE CARRIERS IN
SEMICONDUCTORS: Electrons, holes, distribution of charge carriers, density of
states function & the Fermi Function; Carrier densities in intrinsic & extrinsic
semiconductors.
EXCESS CARRIERS: Optical absorption, luminescence,
photoconductivity, carrier lifetime, Optical sensitivity of a photoconductive
device. FABRICATION TECHNIQUES: Single crystals, epitaxial layers, p-n
junctions. P-N JUNCTIONS: Drift & Diffusion currents, depletion region, contact
potential, band diagrams, I-V characteristics, capacitance, reverse breakdown;
Rectifiers, switches, breakdown diodes, varactor diodes, solar cells, PIN
photodiodes, LEDs, solid state lasers. TRANSISTORS: Charge flow in a BJT,
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JFETs, MOSFETs, CMOS
• EESB423 VLSI DESIGN
To give an overall view of VLSI design methodologies, fabrication process and
solutions to VLSI design problems; To give the experience of using with the
state-of-art commercial EDA software; To provide the knowledge and skill
necessary to design, analyze, simulate and implementing a system project.
Topics include Design and Process Technology, Full custom design, Semi-custom
design, Hardware description languages, System on Chip, Design For Testability
• EESB433 ANALOG IC DESIGN
Pre-requisite: [EEEB273 (for BEEE) / ECCB113 (for BCCE)] and EEEB363
Objectives: This is an advance course for analyzing and designing analog
integrated circuits.
It gives an overall view of analog design flow
methodologies, layout and fabrication process. Students will be exposed to IC
design tools like HSPICE, Cosmos and Magic. The objective of the class is to
provide students with the necessary skill to analyze, simulate and design analog
subcircuits.
• EESB493 EMBEDDED SYSTEMS
BEEE(Elective), BCCE(Core)
The course will cover examples of embedded computer systems, its
specifications such as timeliness and physical constraints (size, power, weight,
and memory footprint), embedded system hardware components such as
processor, bus hierarchy with arbiter, interrupt controller, serial communication,
field programmable gate array (FPGA), and embedded system software such as
C program, multi-threading concept, and hardware descriptive language (HDL).
Student are expected to design an embedded system including writing VHDL
codes and implement it on an evaluation board.
• EPEB413 POWER QUALITY
BEPE(Elective)
Students are introduced to power quality phenomena such as voltage sag/swell,
distortions, unbalance, and flicker that occur in power systems. The course
begins with terms and definitions associated with power quality, following
which each phenomenon, that is, voltage sag/swell, transient overvoltage,
harmonics, and flicker is presented and discussed in detail for students to
understand the sources and impact of these occurrences on power system as
well as typical mitigation techniques. Finally, students are introduced to power
quality benchmarking, monitoring and assessment in regards to international
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standards. Computer simulation tools are used to help students understand the
materials.
• EPEB423 ELECTRICITY INDUSTRY ECONOMICS
BEPE(Elective)
Pre-requisite: EEPB383 Electrical Power System 2
The course will deal with the application of the economic theory to the
Electricity Supply Industry (ESI). The students will be exposed to new theories
such as monopoly, oligopoly and its characteristics which are pertinent in
electricity markets. Pricing techniques will also be covered in order to expose
students on the business aspect which can be derived from economic theory.
• EPEB433 POWER SYSTEM COMMUNICATIONS
BEPE (Elective)
Pre-requisite : EECB353, EEPB353
The course begins by introducing the concept of power system monitoring and
control. It introduces the various communication services, technologies and
their applications in power system. It introduces some of the basic power
system monitoring and control applications that use these communication
technologies e.g. Teleprotection, SCADA and Substation Automation. Issues
that relates to the planning and design of these systems are also described.
• EPEB443 ENERGY CONVERSION
BEPE(Elective)
Pre-requisite: MATB113, PHYF124, EEEB283
The course begins by reviewing the basic principles and theories in energy
conversion. Then the course reviews the advances in energy conversion
technologies. This will lead to the study on the application of the theory on
energy conversions in the production of electrical power from different sources
of energy, including the renewable energy. The course will also discuss selected
themes such as energy utilisation, total energy production cost & ancilliary
service, tariff methodology, energy security, security & uplift cost, energy
forecast, National Energy Balance policy and the issues in the connection of
generators to the National Grid.
• EPEB453 POWER DISTRIBUTION ENGINEERING
BEPE(Elective)
The course covers planning, design and operation of Medium (MV) and Low
voltage (LV) distribution systems network. The students will be introduced to
the construction and operation of various major components used in
distribution system. The course is also aimed to give exposure on distribution
system protection, reliability, power quality, loss reduction and distributed
generations.
• EPRB412 PROJECT 1
172
fulfillment for the award of the bachelorÓş degree. The final year project to be
• EPRB424 PROJECT II
Pre-requisite: EPRB412, COEB314
the student as partial fulfillment for the award of the bachelorÓş degree. The
calculus.
equations.
173
174
Part VII
DEPARTMENT OF ELECTRICAL POWER
ENGINEERING
175
INTRODUCTION
The Department of Electrical Power Engineering is established to develop the
advantage of its strong link with the electricity supply industry through the parent
company, Tenaga Nasional Berhad. The department consists of young energetic
academicians as well as experienced practicing engineers in various fields of
Electrical Power Engineering. The department offers program leading to the
award of Bachelor of Electrical Power Engineering (Hons.).
The curricula for the undergraduate programs require a strong foundation in
mathematics, physics and computer.
Courses in electrical and electronics
engineering begin in the first year after foundation program. The courses include
topics such as electrical circuit analysis, electronics, digital system,
microprocessor, electromagnetic fields, electrical machines and drives, power
systems, power electronics and high voltage technology. Laboratory sessions
reinforce the principles learnt in the classroom which include electrical
measurement techniques, application of non-linear devices, digital logic design,
signal processing, microprocessor, electrical machines and power electronics.
Many engineering courses are classified as design courses and complemented by
computer aided engineering software as simulation and design tools.
During the final year, the students choose technical electives according to their
area of interest. The final year project courses provide opportunities for the
students to apply the engineering principles, experience of current technology as
well as learning the methodology of research. Throughout the course of their
study, students will also take up languages and courses from other departments,
and get involved in a variety of clubs and societies in a holistic approach to
become well-rounded graduates.
The program is designed to prepare students to become professional engineers
and industry leaders. The graduates can carve a career in a diverse range of areas
in industries such as electricity supply, petroleum, automotive, chemicals,
processing, aerospace and many others. Electrical power engineers are engaged in
176
a variety of activities including design, manufacturing, research, development,
testing, construction, operation, sales, management, consulting and teaching.
The department, together with the Department of Electronics & Communication
owns a number of undergraduate and postgraduate research laboratories. These
laboratories are:
• Mobile Robot
• Electrical Machines
• Power Electronics
Technology
and
Drive
• Optoelectronics
• Printed Circuit Board (PCB)
• Digital Logic Design
• Power Quality
• Power System
• Control System
• RF & Microwave Technology
• Electronics Design
• Embedded System Design
• RF & Microwave Engineering
Research
• Electrical/Electronics Measurement
• Robotics and Control
• EMF
• Research and Project
• Smart Grid
• High Voltage
• Internet Protocol
Service (IPQOS)
Quality
• Microprocessor Application
of
• Telecommunication Research
• VLSI
177
In addition to these laboratories, there are also Power Systems Laboratories, High
Voltage Testing and Diagnostic, Electronics, Control and Instrumentation, Power
Plant Technology and Electric Drives Laboratories which are owned by TNB
Research and can be accessed by Universiti Tenaga Nasional students for the
purpose of research.
The Programme Educational Objectives (PEO) of the Bachelor of Electrical Power
Engineering (Hons.) program is the qualities that we wish for our graduates in this
discipline to attain at least 5 years after graduation.
PEO1
PEO2
PEO3
PEO4
Practicing engineers in electrical engineering with the ability to venture into
energy related business / fields.
Have professional qualifications/certifications in electrical engineering
related areas.
The Programme Outcomes (POs) for the Bachelor of Electrical Power Engineering
(Hons.) are qualities that UNITEN aims to instil in graduates of the Electrical Power
Engineering discipline upon graduation. The PO was also developed based upon
the attributes highlighted by EAC (Engineering Accreditation Council). From here
each subjects offered in the programme will strive to cover portions of the PO. The
POs are as follows.
Students graduating from BEPE program will have the ability to:
PO1
PO2
PO3
PO4
PO5
PO6
PO7
PO8
PO9
PO10
PO11
PO12
Apply fundamental knowledge of mathematics, science and electrical
engineering principles in solving complex problems.
Identify, formulate, analyse and solve complex electrical engineering
problems.
Design solutions for complex electrical engineering problems that meet
investigating complex problems related to electrical engineering.
practice.
leader.
178
Bachelor of Electrical Power Engineering: Programme Structure for Malaysian
Students (For Normal Semester Intake starting from Semester 1, 2016/2017)
Semester
Code
Course
Semester
I
EEEB114
Engineers
Measurement Lab
Circuits Analysis I
Advanced
Calculus
&
Analytical Geometry
Total Credit Hours
MATB143
EEEB111
EEEB113
MATB113
Semester
II
EEEB123
EEEB143
EEEB163
EEEB161
MEMB123
ETIB113
Semester
EEEB273
III
EEEB141
EEEB233
MATB253
TECB213
ICEB113/
MCEB113
I
Total Credit Hours
II
Signal & System
Linear Algebra
for Engineers I
Total Credit Hours
Credit
Hours
4
Prerequisite
NONE
Corequisite
NONE
3
1
NONE
NONE
NONE
EEEB113
3
3
NONE
NONE
NONE
NONE
EEEB113,
MATB143
EEEB113
NONE
3
1
3
3
16
3
EEEB113
NONE
NONE
NONE
NONE
EEEB163
NONE
NONE
EEEB143
NONE
1
3
3
3
3
EEEB111
EEEB123
NONE
NONE
NONE
EEEB143
NONE
NONE
NONE
NONE
14
3
3
NONE
16
Continue
179
Semester
Code
Course
Semester
IV
MEHB213
EEEB283
Thermodynamics I
EEEB253
EEPB353
Waves
Numerical
Methods
for
Engineers
for Engineers II
Personal
Financial
Management
Total Credit Hours
EEEB281
EEEB323
Electrical Machines Lab
Control System I
1
3
EEEB373
3
COEB432
COEB422
2
2
EHEB113
EEPB383
EECB353
EECB351
EEEB363
Hubungan Etnik
Total Credit Hours
EEEB393
Power Electronics
COEB442
2
15
4
4
COEB223
ICEB212/
MCEB212
AKPK111
Semester
V
Semester
VI
Special
Semester
COEB314
Total Credit Hours
Industrial Training
Semester
VII
EEPB463
Total Credit Hours
High Voltage Technology
EPRB412
Project I
EEIB413
Process
Control
Instrumentation
***
EEEB403
Total Credit Hours
Credit
Hours
3
3
3
3
2
1
15
3
3
17
3
3
1
3
3
3
2
&
3
3
3
Prerequisite
NONE
EEEB113,
MATB113,
EEEB123
EEEB123,
MATB143
MATB143,
MATB253
ICEB113/
MCEB113
NONE
EEEB123,
EEEB283
NONE
EEEB233,
MATB143
EEEB163,
EEEB233
EEEB273
TECB213,
EEEB273
NONE
Continuation
Corequisite
NONE
NONE
NONE
EEEB114
NONE
NONE
NONE
EEEB283
NONE
NONE
NONE
NONE
NONE
EEPB353
EEEB233
NONE
EEEB233,
EEEB373
EEEB233,
EEEB283
EEEB273
NONE
NONE
EECB353
NONE
EEEB323,
70 CH
NONE
EEEB253,
EEPB353
EEEB323,
EEEB363,
EEPB353,
EECB353
EEEB323,
MEHB213
NONE
NONE
NONE
NONE
NONE
COEB422,
EEPB383
14
Continue
180
Semester
Code
Semester
VIII
EPRB424
***
***
***
***
Course
Project II
Credit
Hours
4
Total Credit Hours
3
3
3
3
16
127
Prerequisite
EPRB412,
COEB314
NONE
3
EEEB323
EEEB423
Control System II
3
EEEB323
EEEB443
Control & Drives
3
EEEB393
EEEB493
3
CSEB114,
EEEB323
EEIB423
Nuclear Electronics
3
EEEB323
EEPB413
3
EEPB353
EEPB423
3
EEPB383
EEPB473
3
EEPB353
EEPB493
3
EEEB393,
EEPB353
EPEB413
Power Quality
3
EEPB353
EPEB423
Electricity
Industry
3
EEPB353
Economics
EPEB433
Power
System
3
EECB353,
Communications
EEPB353
EPEB443
Energy Conversion
3
EEPB353
EPEB453
Power
Distribution
3
EEPB353
Engineering
MEHB513
Introduction
to
Nuclear
3
MEHB213
Technology
MEHB523
Introduction to Sustainability
3
COEB442
Engineering
MENB403
Introduction
to
Nuclear
3
COEB422
Engineering
MENB413
3
COEB422
MENB423
3
COEB422
MENB433
3
COEB422
Management
MENB443
3
COEB422
MENB453
3
COEB422
Safeguards
MESB413
3
EEEB283,
EEEB323
ECEB463
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
EEIB413
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
Continue
181
Semester
Code
AKPK111
EHEB113
ICEB113/
MCEB113
ICEB212/
MCEB212
ETIB113
MLKB113
KDKB113
SPRB113
KKSB113
RELB113
PKIB113
SPYB113
MANB113
FRAB113
GERB113
JAPB113
Credit
PreHours
requisite
Personal
Financial
1
EEEB323
Management
Hubungan Etnik
3
EEEB373
3
NONE
3
ICEB113/
MCEB113
3
NONE
Asia
Bahasa
Kebangsaan
A
3
NONE
3
NONE
3
NONE
Workplaces
3
NONE
3
NONE
Creative Thinking
3
NONE
Introduction
to
Social
3
NONE
Psychology
Mandarin Language
3
NONE
Basic French
3
NONE
Basic German
3
NONE
Japanese Language
3
NONE
Course
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
182
Bachelor of Electrical Power Engineering:
Programme Structure for
International Students (For Normal Semester Intake starting from Semester
1, 2016/2017)
Semester
Code
Course
Semester
I
EEEB114
Engineers
Measurement Lab
Circuits Analysis I
Advanced
Calculus
&
Analytical Geometry
Total Credit Hours
MATB143
EEEB111
EEEB113
MATB113
Semester
II
EEEB123
EEEB143
EEEB163
EEEB161
MEMB123
MALB103
Semester
EEEB273
III
EEEB141
EEEB233
MATB253
TECB213
MASB113
Semester
IV
MEHB213
EEEB283
EEEB253
COEB223
***
I
Malay
Language
for
Total Credit Hours
II
Signal & System
Linear Algebra
Malaysian Study
Total Credit Hours
Thermodynamics I
Waves
Numerical
Methods
for
Engineers
International
MPU
Compulsory [U2]
Total Credit Hours
Credit
Hours
4
Prerequisite
NONE
Corequisite
NONE
3
1
NONE
NONE
NONE
EEEB113
3
3
NONE
NONE
NONE
NONE
NONE
3
EEEB113,
MATB143
EEEB113
3
1
3
3
EEEB113
NONE
NONE
NONE
NONE
EEEB163
NONE
NONE
16
3
EEEB143
NONE
EEEB111
EEEB123
NONE
NONE
NONE
EEEB143
NONE
NONE
NONE
NONE
NONE
EEEB113,
MATB113,
EEEB123
EEEB123,
MATB143
MATB143,
MATB253
NONE
NONE
NONE
14
3
1
3
3
3
3
16
3
3
3
3
3
NONE
NONE
EEEB114
NONE
15
Continue
183
Semester
Code
Semester
V
EEPB353
EEEB281
EEEB323
Control System I
1
3
EEEB373
3
COEB432
COEB422
2
2
3
EEPB383
EECB353
EECB351
EEEB363
International
MPU
Compulsory [U3]
Total Credit Hours
EEEB393
Power Electronics
COEB442
2
15
4
4
***
Semester
VI
Course
Special
Semester
COEB314
Total Credit Hours
Industrial Training
Semester
VII
EEPB463
Total Credit Hours
EPRB412
Project I
EEIB413
Process
Control
Instrumentation
***
EEEB403
Total Credit Hours
Credit
Hours
3
17
3
3
1
3
3
3
2
&
3
3
3
Prerequisite
EEEB123,
EEEB283
NONE
EEEB233,
MATB143
EEEB163,
EEEB233
EEEB273
TECB213,
EEEB273
NONE
Continuation
Corequisite
NONE
EEEB283
NONE
NONE
NONE
NONE
NONE
EEPB353
EEEB233
NONE
EEEB233,
EEEB373
EEEB233,
EEEB283
EEEB273
NONE
NONE
EECB353
NONE
EEEB323,
70 CH
NONE
EEEB253,
EEPB353
EEEB323,
EEEB363,
EEPB353,
EECB353
EEEB323,
MEHB213
NONE
NONE
NONE
NONE
NONE
COEB422,
EEPB383
14
Continue
184
Semester
Code
Semester
VIII
EPRB424
***
***
***
***
Course
Credit
Hours
4
Project II
International
Compulsory [U4]
Total Credit Hours
MPU
3
3
3
3
Prerequisite
EPRB412,
COEB314
NONE
NONE
16
127
3
EEEB323
EEEB423
Control System II
3
EEEB323
EEEB443
Control & Drives
3
EEEB393
EEEB493
3
CSEB114,
EEEB323
EEIB423
Nuclear Electronics
3
EEEB323
EEPB413
3
EEPB353
EEPB423
3
EEPB383
EEPB473
3
EEPB353
EEPB493
3
EEEB393,
EEPB353
EPEB413
Power Quality
3
EEPB353
EPEB423
Electricity
Industry
3
EEPB353
Economics
EPEB433
Power
System
3
EECB353,
Communications
EEPB353
EPEB443
Energy Conversion
3
EEPB353
EPEB453
Power
Distribution
3
EEPB353
Engineering
MEHB513
Introduction
to
Nuclear
3
MEHB213
Technology
MEHB523
3
COEB442
Engineering
MENB403
Introduction
to
Nuclear
3
COEB422
Engineering
MENB413
3
COEB422
MENB423
3
COEB422
MENB433
3
COEB422
Management
MENB443
3
COEB422
MENB453
3
COEB422
Safeguards
MESB413
3
EEEB283,
EEEB323
ECEB463
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
EEIB413
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
Continue
185
Semester
Code
MALB103
MASB113
Course
Credit
Hours
Malay
Language
for
3
Malaysian Studies
3
Prerequisite
NONE
NONE
NONE
NONE
FRAB113
Basic French
3
NONE
GERB113
Basic German
3
NONE
JAPB113
Japanese Language
3
NONE
MALB203
3
NONE
Student
MANB113
Mandarin Language
3
NONE
PKIB113
Creative Thinking
3
NONE
SPYB113
Introduction
to
Social
3
NONE
Psychology
RELB113
3
NONE
SPRB113
Sports
and
Recreation
3
NONE
HFTB113
Health and Fitness
3
NONE
ISWB113
3
NONE
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
186
Bachelor of Electrical Power Engineering (Hons.): Programme Structure
for Malaysian Students (For Special Semester Intake starting from Special
Semester 2016/2017)
Semester
Code
Course
Semester
Special
1
MATB113
Advanced
Calculus
&
Analytical Geometry
Total Credit Hours
Engineers
Measurement Lab
Circuits Analysis I
Total Credit Hours
ETIB113
Semester
EEEB114
I
MATB143
EEEB111
EEEB113
MEMB123
Semester
II
EEEB123
EEEB143
Credit
Hours
3
Prerequisite
NONE
Corequisite
NONE
3
NONE
NONE
4
NONE
NONE
3
1
NONE
NONE
NONE
EEEB113
3
3
14
3
NONE
NONE
NONE
NONE
NONE
3
EEEB113,
MATB143
EEEB113
3
1
3
3
EEEB113
NONE
NONE
NONE
NONE
EEEB163
NONE
NONE
16
3
EEEB143
NONE
EEEB111
EEEB123
NONE
NONE
ICEB113/
MCEB113
EEEB143
NONE
NONE
NONE
NONE
EEEB233,
MATB143
EEEB113,
MATB113,
EEEB123
EEEB123,
MATB143
MATB143,
MATB253
EEEB163,
EEEB233
NONE
NONE
6
Semester
EEEB273
III
EEEB141
EEEB233
MEHB213
TECB213
ICEB212/
MCEB212
Semester
IV
EEEB323
I
Linear Algebra
for Engineers I
Total Credit Hours
II
Signal & System
Thermodynamics I
for Engineers II
Total Credit Hours
Control System I
EEEB283
3
EEEB253
Waves
Numerical
Methods
for
Engineers
3
Personal
Financial
Management
Total Credit Hours
1
EEEB163
EEEB161
MATB253
ICEB113/
MCEB113
COEB223
EEEB373
AKPK111
1
3
3
3
2
15
3
3
3
NONE
NONE
NONE
EEEB114
NONE
NONE
16
Continue
187
Semester
Code
Special
Semester
2
COEB432
***
EHEB113
Hubungan Etnik
Total Credit Hours
Semester
V
EEPB353
EEEB281
EEIB413
Course
Credit
Hours
2
3
3
3
EEEB363
EEEB393
Power Electronics
3
COEB422
2
COEB442
EEPB383
EECB351
EECB353
EPRB412
Total Credit Hours
Project I
***
EEPB463
Special
Semester
COEB314
Total Credit Hours
Industrial Training
15
4
EEEB403
Total Credit Hours
4
Semester
VII
EPRB424
Project II
***
***
***
Total Credit Hours
Continuation
Corequisite
NONE
NONE
NONE
8
Process
Control
Instrumentation
Semester
VI
Prerequisite
EEEB273
TECB213,
EEEB273
NONE
1
3
&
3
2
17
3
1
3
2
3
3
3
4
EEEB123,
EEEB283
NONE
EEEB323,
MEHB213
EEEB233,
EEEB373
EEEB233,
EEEB283
TECB213,
EEEB273
EEEB273
NONE
EEEB283
NONE
NONE
NONE
NONE
NONE
EEPB353
NONE
EEEB233
EEEB323,
EEEB363,
EEPB353,
EECB353
NONE
EECB353
NONE
NONE
EEEB253,
EEPB353
NONE
EEEB323,
70 CH
NONE
COEB422,
EEPB383
EPRB412,
COEB314
NONE
3
3
3
16
127
Continue
188
Semester
Code
Credit
PreHours
requisite
ECEB463
3
EEEB323
EEEB423
Control System II
3
EEEB323
EEEB443
Control & Drives
3
EEEB393
EEEB493
3
CSEB114,
EEEB323
EEIB423
Nuclear Electronics
3
EEEB323
EEPB413
3
EEPB353
EEPB423
3
EEPB383
EEPB473
3
EEPB353
EEPB493
3
EEEB393,
EEPB353
EPEB413
Power Quality
3
EEPB353
EPEB423
Electricity
Industry
3
EEPB353
Economics
EPEB433
Power
System
3
EECB353,
Communications
EEPB353
EPEB443
Energy Conversion
3
EEPB353
EPEB453
Power
Distribution
3
EEPB353
Engineering
MEHB513
Introduction
to
Nuclear
3
MEHB213
Technology
MEHB523
3
COEB442
Engineering
MENB403
Introduction
to
Nuclear
3
COEB422
Engineering
MENB413
3
COEB422
MENB423
3
COEB422
MENB433
3
COEB422
Management
MENB443
3
COEB422
MENB453
3
COEB422
Safeguards
MESB413
3
EEEB283,
EEEB323
AKPK111
EHEB113
ICEB113/
MCEB113
ICEB212/
MCEB212
ETIB113
Course
Personal
Financial
1
Management
Hubungan Etnik
3
3
3
3
Asia
Continuation
Corequisite
NONE
NONE
NONE
NONE
EEIB413
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
EEEB323
NONE
EEEB373
NONE
NONE
NONE
ICEB113/
MCEB113
NONE
NONE
NONE
Continue
189
Semester
Code
MLKB113
KDKB113
SPRB113
KKSB113
RELB113
PKIB113
SPYB113
MANB113
FRAB113
GERB113
JAPB113
Credit
PreHours
requisite
Bahasa
Kebangsaan
A
3
NONE
3
NONE
3
NONE
Workplaces
3
NONE
3
NONE
Creative Thinking
3
NONE
Introduction
to
Social
3
NONE
Psychology
Mandarin Language
3
NONE
Basic French
3
NONE
Basic German
3
NONE
Japanese Language
3
NONE
Course
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
190
Bachelor of Electrical Power Engineering (Hons.): Programme Structure for
International Students (For Special Semester Intake starting from Special
Semester 2016/2017)
Semester
Code
Course
Semester
Special
1
MATB113
Advanced
Calculus
&
Analytical Geometry
Malay
Language
for
Total Credit Hours
Engineers
Measurement Lab
Circuits Analysis I
Total Credit Hours
Semester
I
MALB103
EEEB114
MATB143
EEEB111
EEEB113
MEMB123
Semester
II
EEEB123
EEEB143
Credit
Hours
3
Prerequisite
NONE
Corequisite
NONE
3
NONE
NONE
4
NONE
NONE
3
1
NONE
NONE
NONE
EEEB113
3
3
14
3
NONE
NONE
NONE
NONE
NONE
3
EEEB113,
MATB143
EEEB113
3
1
3
3
EEEB113
NONE
NONE
NONE
NONE
EEEB163
NONE
NONE
16
3
EEEB143
NONE
1
3
3
3
2
EEEB111
EEEB123
NONE
NONE
NONE
EEEB143
NONE
NONE
NONE
NONE
EEEB233,
MATB143
EEEB113,
MATB113,
EEEB123
EEEB123,
MATB143
MATB143,
MATB253
EEEB163,
EEEB233
NONE
6
Semester
EEEB273
III
EEEB141
EEEB233
MEHB213
TECB213
***
Semester
IV
EEEB323
I
Linear Algebra
International
MPU
Compulsory [U2]
Total Credit Hours
II
Signal & System
Thermodynamics I
International
MPU
Compulsory [U3]
Total Credit Hours
Control System I
EEEB283
3
EEEB253
Waves
Numerical
Methods
for
Engineers
3
EEEB163
EEEB161
MATB253
***
COEB223
EEEB373
Total Credit Hours
16
3
3
3
NONE
NONE
NONE
EEEB114
NONE
15
Continue
191
Semester
Code
Course
Special
Semester
2
COEB432
***
International
MPU
Compulsory [U4]
Malaysian Study
Total Credit Hours
MASB113
Semester
V
EEPB353
EEEB281
EEIB413
Credit
Hours
2
3
3
3
EEEB363
EEEB393
Power Electronics
3
COEB422
2
COEB442
EEPB383
EECB351
EECB353
EPRB412
Total Credit Hours
Project I
***
EEPB463
Special
Semester
COEB314
Total Credit Hours
Industrial Training
15
4
EEEB403
Total Credit Hours
4
Semester
VII
EPRB424
Project II
***
***
***
Total Credit Hours
Continuation
Corequisite
NONE
NONE
NONE
8
Process
Control
Instrumentation
Semester
VI
Prerequisite
EEEB273
TECB213,
EEEB273
NONE
1
3
&
3
2
17
3
1
3
2
3
3
3
4
EEEB123,
EEEB283
NONE
EEEB323,
MEHB213
EEEB233,
EEEB373
EEEB233,
EEEB283
TECB213,
EEEB273
EEEB273
NONE
EEEB283
NONE
NONE
NONE
NONE
NONE
EEPB353
NONE
EEEB233
EEEB323,
EEEB363,
EEPB353,
EECB353
NONE
EECB353
NONE
NONE
EEEB253,
EEPB353
NONE
EEEB323,
70 CH
NONE
COEB422,
EEPB383
EPRB412,
COEB314
NONE
3
3
3
16
127
Continue
192
Semester
Code
Credit
PreHours
requisite
ECEB463
3
EEEB323
EEEB423
Control System II
3
EEEB323
EEEB443
Control & Drives
3
EEEB393
EEEB493
3
CSEB114,
EEEB323
EEIB423
Nuclear Electronics
3
EEEB323
EEPB413
3
EEPB353
EEPB423
3
EEPB383
EEPB473
3
EEPB353
EEPB493
3
EEEB393,
EEPB353
EPEB413
Power Quality
3
EEPB353
EPEB423
Electricity
Industry
3
EEPB353
Economics
EPEB433
Power
System
3
EECB353,
Communications
EEPB353
EPEB443
Energy Conversion
3
EEPB353
EPEB453
Power
Distribution
3
EEPB353
Engineering
MEHB513
Introduction
to
Nuclear
3
MEHB213
Technology
MEHB523
3
COEB442
Engineering
MENB403
Introduction
to
Nuclear
3
COEB422
Engineering
MENB413
3
COEB422
MENB423
3
COEB422
MENB433
3
COEB422
Management
MENB443
3
COEB422
MENB453
3
COEB422
Safeguards
MESB413
3
EEEB283,
EEEB323
MALB103
MASB113
Course
Malay
Language
for
3
Malaysian Studies
3
Continuation
Corequisite
NONE
NONE
NONE
NONE
EEIB413
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
Continue
193
Semester
Code
Course
Credit
PreHours
requisite
FRAB113
Basic French
3
NONE
GERB113
Basic German
3
NONE
JAPB113
Japanese Language
3
NONE
MALB203
3
NONE
Student
MANB113
Mandarin Language
3
NONE
PKIB113
Creative Thinking
3
NONE
SPYB113
Introduction
to
Social
3
NONE
Psychology
RELB113
3
NONE
SPRB113
Sports
and
Recreation
3
NONE
HFTB113
Health and Fitness
3
NONE
ISWB113
3
NONE
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
194
LIST OF INDUSTRY ADVISORY PANELS
(IAP)
• Y. Bhg. Datuk Seri Ir. Hj Azman Mohd
• Y. Bhg. Dato’ Muhammad Razif Abdul Rahman
Vice President (Human Resource),
• Mr Rosman Hamzah
Director of Business Development,
ALSTOM Asia Pacific Sdn. Bhd.
• Ir. Mohamed Zaimir b. Mohamed Suffian
Senior Vice President, Project Development Division,
Syarikat Prasarana Negara Berhad.
• Ir. Dr. Zahrul Faizi Hussein
Head,
Malakoff Utilities Sdn. Bhd.
• Ir. Abdul Rahim Bin Ibrahim
Director, Energy Management Development and Service Quality,
Energy Commission, Malaysia.
• Ir. Razali Budin
Sr General Manager Sales & Marketing / Company Director,
TAMCO Switchgear (M) Sdn Bhd.
• Dr. Eu Poh Leng
KLM Internal and External Cu WB Team Manager,
Freescale Semiconductor (M) Sdn. Bhd.
195
• Engr. Narendren Rengasamy
General Manager,
LM Lighting Malaysia Sdn Bhd (LIGMAN Malaysia).
• Dr. Kamarulzaman Mohamed Zin
SilTerra Malaysia Sdn. Bhd.
• Mr. Lim Keng Hock
Comintel Sdn. Bhd.
• Mr. Wan Roz Wan Hussein
Technical Director,
RF Communication (M) Sdn.Bhd.
• Mr. Edward Yee Chee Kheong
Vice President and Head of Enterprise Business,
YTL Communications Sdn Bhd.
• Mr. Reza Mirkhani
Chief Marketing Officer and Member of the Board,
Enverv Inc., USA.
• Mr. Giovanni Minetti
Paradox Engineering SA, Switzerland.
• Mr. Elias Jailani
NPO Business Service Manager,
RU APAC & Japan, Nokia.
ADJUNCT PROFESSOR
• Datuk Ir. Baharin Din
Vice President (Distribution),
196
• Ir. Dr. Sazali P Abdul Karim
Principal Technical Expert (Protection System Analysis),
• Dr. Aznan Ezraie Ariffin
Vice President (Investments),
Khazanah Nasional.
• Dr. Ir. Aziz Marzuki Ahmad Marican
Managing Director,
DCS Engineering Sdn. Bhd.
• Ir. Dr. Mohd Fadzil Mohd Siam
General Manager (T&D),
TNB Research Sdn. Bhd.
EXTERNAL EXAMINER
• Prof. Vassilios G Agelidis ,
Director, Australian Energy Research Institute (AERI)
Professor of Power Engineering, School of Electrical Engineering and
Telecommunications
The University of New South Wales, Australia
197
FACULTY MEMBERS
HEAD OF DEPARTMENT
Dr. Ungku Anisa Bt Ungku Amirulddin Al Amin
C.Eng.
Education:
• Ph. D. in Electrical and Electronic Engineering.
Nottingham, UK)
(Univ.
of
• B. Eng. (Hons.) in Electrical and Electronic Engineering. (Imperial
College, UK)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Analysis and Simulations of Electrical Machines and Drives.
BN-2-018
2227
[email protected]
198
Dr. Tengku Juhana binti Tengku Hashim
(Head of Unit- Academic Program Assessment)
Education:
• Ph. D. in Electrical Engineering (Universiti Kebangsaan Malaysia)
• Master of Electrical Engineering (Univ. Tenaga Nasional, Malaysia)
• B. Eng. (Hons.) Electrical Power (Univ. Tenaga Nasional, Malaysia)
AArea
of
specialization
/
research
interest:
• Artificial Intelligence Techniques
• Power Systems Analysis
• Optimization Techniques
Office:
Phone ext.:
Email:
BN-1-004
2284
[email protected]
Dr. Halimatun binti Hashim
(Head of Unit- External Relations)
Education:
• Ph. D. in Engineering (Univ. Tenaga Nasional, Malaysia)
• B. Sc. in Electrical Engr. (Virginia Polytechnic Institute and State
Univ., USA)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Power System Analysis
BN-1-014
2234
[email protected]
Sabarina binti Jaafar
(Head of Unit- Staff/Student Affairs)
Education:
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Electric machines Drives
BN-3-074
6308
[email protected]
199
PROFESSORS/ READERS
Prof. Ir. Dr. Tuan Ab Rashid bin Tuan Abdullah
(Director, Institute of Energy Policy & Research)
Education:
• Ph. D. in Power System Asset Management (Univ. of Strathclyde,
UK)
• M. Sc. in Electrical Power Engineering with Business (Univ. of
Strathclyde, U.K)
• B. Sc. in Electrical Engineering (Univ. of Southern California. U.S.A.)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Power System Asset Management
• Power System Planning & Economics
• Random Event Analytics in Power System
BN-2-033
2360 / 2302
[email protected]
Prof. Engr. Dr. Vigna Kumaran a/l Ramachandaramurthy
PEng, CEng (UK), MIEM, MIET, SMIEEE
Education:
• Ph. D. in Electrical Engineering (Univ. of Manchester Institute of
Science and Technology (UMIST), UK)
• B. Eng. (Hons.) in Electrical and Electronic Engineering (UMIST,
UK)
Area
of
specialization
/
research
interest:
• Power Systems related studies
• Power Quality
• Renewable Energy
• Embedded Generation
Office:
Phone ext.:
Email:
BN-3-044 / BH-0-010 / BH-0-011
3081
[email protected]
200
Associate Prof. Dr. Bahisham binti Yunus
(Director, Strategic & Corporate Planning Centre)
Education:
• Ph.D. in Electrical Engineering (University of Manchester, UK)
• M. in Business Administration (Ohio University, USA)
• B. Sc in Electrical Engineering (George Washington University, USA)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Power System Communications
• Power System/ Substation Automation
• Equipment Reliability.
BA-2-070
7570
[email protected]
ASSOCIATE PROFESSORS/ PRINCIPAL LECTURER
Associate Prof. Dr. Ahmad Qisti bin Ramli
Education:
• Ph. D. in Electrical Engineering (Univ. of Manchester, UK)
• M. Sc. in Electrical Engr. (Univ. Teknologi Malaysia, Malaysia)
• B. Sc. in Electrical Engr. (Univ. of Houston, USA)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• High Voltage
• Power System
• Numerical Simulation
BN-1-010
7215
[email protected]
201
Associate Prof. Ir. Dr. Au Mau Teng
Education:
• Ph. D. in Electrical Engineering (The Univ. of Manchester, UK )
• M. Sc. Electrical (Purdue Univ. at Indianapolis, USA)
• B. Sc. Electrical & Electronics (Univ. of Toledo, USA)
• Diploma Engineering, Communication (Univ. Teknologi Malaysia,
Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Power Systems
• Power Quality
BJ-1-012
7201
[email protected]
Associate Prof. Ismail bin Said
Education:
• M. Sc. Superconductivity & Cryogenics (Univ. of Southampton, UK)
• B. Sc. (Hons.) in Electrical & Electronics (Univ. of Brighton, UK)
Area
of
specialization
/
research
interest:
• Process Control and Industrial Automation
• Electric Power Plant Operations and Control
• Study on ELF-EMF
• Applications of High-Temperature Superconductivity & Cryogenics.]
Office:
Phone ext.:
Email:
BH-0-016
7213
[email protected]
202
Associate Prof. Dr. Izham bin Zainal Abidin
(Dean, College of Engineering)
Education:
• Ph. D. in Electronics and Electrical Engineering (Power Systems)
(Univ. of Strathclyde, UK)
• B. Eng. (Hons.) in Electrical Engineering (Univ. of Southampton,
UK)
UK)
Area
of
specialization
/
research
interest:
• Power System Simulation
• Voltage Stability
• Wide Area Information System
• Self Healing Systems
Office:
Phone ext.:
Email:
COE Dean’s Office, 2nd Floor, BN Building
7255
[email protected]
Associate Prof. Dr. Jagadeesh Pasupuleti
(C.Eng, SMIEEE, MIET, MISTE )
Education:
• Ph. D. in Power System Operation & Control (Sri Venkateswara Univ.,
India)
• M. Tech. in Power System Operation & Control (Sri Venkateswara
Univ., India)
• B. Tech in Electrical & Electronics Engineering (Nagarjuna Univ.,
India)
Area
of
specialization
/
research
interest:
• Power System Operation & Control
• Demand Side Management
• Smart Grid
• Energy Efficiency
Office:
Phone ext.:
Email:
BN-3-067
7277
[email protected]
203
Associate Prof. Dr. Miszaina binti Osman
(Deputy Dean, Academic & Quality Assurance)
C.Eng.
Education:
• Ph. D. in Electrical Engineering. (Univ. of Southampton, UK)
UK)
• BTEC National Diploma in Engineering (Peterborough Regional
College, UK)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• High Voltage
• Earthing System.
BN-2-017
7229
[email protected]
SENIOR LECTURER
Dr. Aishah binti Mohd Isa
Education:
• Ph.D. in Environment and Energy Engineering (Waseda Univerisity,
Japan)
Strathclyde, Scotland)
Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Generation Planning
BW-02-C035
3235
[email protected]
204
Dr. Azrul bin Mohd Ariffin
Education:
• Ph.D in Electrical Engineering (Univ. of Southampton, UK)
• B.Eng (1st Class Hons.)
Southampton, UK)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
in Electrical Engineering (Univ.
of
• Degradation of high voltage cable insulation, space charge effects
and ageing phenomena in polymers
BN-3-017
7335
[email protected]
John Steven Navamany
Education:
• Master in Electrical Engineering (Univ. Tenaga Nasional, Malaysia)
• B. Sc. Electrical Engr. (Purdue Univ. at Indianapolis, USA)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Power System Engineering, Electronics
• Insulation Condition Monitoring.
BN-1-026
2235
[email protected]
Dr. Ker Pin Jern
Education:
• Ph. D. in Electronic and Electrical Engineering. (Univ. of Sheffield,
UK)
• B. Eng. (Hons.) in Electrical and Electronics Engineering. (Univ.
Tenaga Nasional, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Simulations and characterization of photodetectors for infrared
sensing/imaging, telecommunications and gas sensing
BN-0-025
6230
[email protected]
205
Dr. Marayati binti Marsadek
(Director, Power Engineering Centre)
Education:
• Ph. D in Electrical Engineering (Universiti Kebangsaan Malaysia,
Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Power System analysis
• FACTS (Flexible AC Transmission Systems)
• Reliability and Security
BN-1-032
7251
[email protected]
Dr. Muhamad bin Mansur
Education:
• Ph. D. in Power Electronics (Univ. Malaya, Malaysia)
• B. Eng. in Electrical Engr. (Univ. Teknologi Malaysia, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Energy conversion
• Occupational Safety and Health
BN-3-079
6274 / 7263
[email protected]
Dr. Muhammad Safwan Abd. Rahman
Education:
• Ph.D in Electrical Engineering (Univ. of Southampton, UK)
• M.Eng in Electrical Engineering (Univ. of Southampton, UK)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• High Voltage
BN-1-051
7241
[email protected]
206
Dr. Nadia Tan Mei Lin
Education:
• Ph. D. in Electrical Engineering (Tokyo Institute of Technology,
Japan)
• B. Eng. (Hons.) in Electrical Engr. (Univ. of Sheffield, UK)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Power Conversion Systems
BN-3-088
7256
[email protected]
Dr. Nazaruddin A Rahman
Education:
• Ph. D. in Electrical Engineering (Univ. Malaya, Malaysia)
• B. Sc. (Applied Physics) (Univ. Teknologi Malaysia, Malaysia)
Area
of
specialization
/
research
interest:
• EMF Low Frequency Shielding Design
• High Voltage Electrical Materials
• EMF LF Emission Study
• Renewable energy
• Electrical Vehicle
Office:
Phone ext.:
Email:
BH-0-016
6274
[email protected]
207
Dr. Nur Azzammudin Rahmat
Education:
• Ph.D. in Electrical Engineering (Univ. Teknologi MARA, UiTM, Shah
Alam, Malaysia)
• Bachelor (Hons) in Electrical Engineering (Power) (Univ. Teknologi
MARA, UiTM, Shah Alam, Malaysia)
• Diploma in Electrical Engineering (Communication)
Teknologi MARA, UiTM, Terengganu, Malaysia)
Area
of
specialization
/
research
interest:
(Univ.
• Power System
• Economic Dispatch
• Electrical Energy Utilization
• Fuzzy Logic
• Ant Colony Optimization
• Computational Intelligence
Office:
Phone ext.:
Email:
BN-3-033
6229
[email protected]
Dr. Nur Fadilah Ab Aziz
Education:
• Ph. D. in Electrical Engineering (Universiti Teknologi MARA)
• M. Eng. Electrical Engineering (Univ. of Southampton, UK)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Power System Analysis using Artificial Intelligence
BN-1-031
7235
[email protected]
Sharifah Azma binti Syed Mustaffa
Education:
• M. Eng. Electrical-Power (Univ. Teknologi Malaysia, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Power System
• Smart grid
BW-2-C36
2394
[email protected]
208
Dr. Tan Ching Sin
Education:
• Ph. D. in Electrical Engineering (Univ. of Strathclyde, UK)
Strathclyde, UK)
• B. Eng. (Hons.) in Electrical Engineering (Univ. Teknologi Malaysia,
Malaysia)
• Diploma in Power Engineering (Univ. Teknologi Malaysia, Malaysia)
Area
of
specialization
/
research
interest:
• Power System Economics
• Distributed Generation
• Locational Marginal Pricing
Office:
Phone ext.:
Email:
BN-1-033
2267
[email protected]
Dr. Toh Chuen Ling
Education:
• Ph. D. in Electrical Engineering (Norwegian University of Science
and Technology)
• M. Eng. (Power Electronics & Drives) (Universiti Teknologi Malaysia)
• B. Eng. Electrical (Universiti Teknologi Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Power electronics and drives
• FPGA design
BN-1-018
7230
[email protected]
209
Dr. Ya’akob bin Raja Omar
Education:
• B. Sc. in Electrical Engr. (Univ. Teknologi Malaysia, Malaysia)
• Diploma in Electrical Engineering (University Teknologi Mara)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Power System
BN-0-006
2233 / 5316
[email protected]
Dr. Yasmin Hanum Md Thayoob
Education:
• Ph. D. Engineering (Univ. Tenaga Nasional, Malaysia)
• M. Sc. in Electrical Engr. (Univ. of Southampton, UK)
• B. Sc. in Electrical Engr. (Univ. of Miami, USA)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Application of Digital Signal Processing and Pattern Recognition
techniques for systems condition monitoring and diagnostics of High
Voltage Instruments
BN-1-045
7211
[email protected]
Dr. Zaipatimah binti Ali
Education:
• Ph. D. in Electrical Engineering (University of Manchester, UK)
• M Sc. in Electrical Engineering (Purdue Univ. at Indianapolis, USA)
• B. Sc. in Electrical Engineering. (Purdue Univ. at Indianapolis, USA)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• High Voltage System Analysis
• Substation Automation
• Digital Signal Processing Applications
BN-3-015
7247
[email protected]
210
LECTURERS
Chen Chai Phing
Education:
• Master in Electrical Engineering. (Univ. Tenaga Nasional, Malaysia)
• B. Eng. (Hons.) in Electronics Engineering majoring in Robotics &
Automation. (Multimedia University, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Combinational Artificial Intelligence for Non-Technical Losses
Detection in Power Utility
BN-3-034
6305
[email protected]
Ida Suzana binti Hussain
Education:
• B. Eng. (Hons.) in Electrical Engr. (Univ. of Southampton, UK)
UK)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• FACTS devices.
BN-3-082
7290
[email protected]
Karmila binti Kamil
Education:
• Diploma in Medical Electronic Engineering (Politeknik Sultan
Salahuddin Abdul Aziz Shah, Malaysia
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Artificial Intelligence.
BN-3-083
7291
[email protected]
211
Kuan Tze Mei
Education:
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Water Treeing in Polymeric Underground Cables
• High Voltage Engineering.
BN-3-068
2231
[email protected]
Maryam Huda binti Ahmad Phesal
Education:
• Masters of Electronics and Computer Engineering, Kanazawa
University Japan
• Bachelor of Eng. in Electrical and Electronics Engineering, Kanazawa
University Japan
Area
of
specialization
/
research
interest:
Office:
Email:
• Sustainable Energy.
On study leave
[email protected]
Mohd Azrin Bin Mohd Azau
Education:
• M. Sc. in Robotics and Artificial Intelligence (Univ.
Malaysia)
Malaya,
Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Solar Photovoltaics Systems
• Advanced Control System
• Operational Research
BN-1-060
7218
[email protected]
212
Mohd Helmi Mansor
Education:
• M. Sc. in Sustainable Electrical Power, Brunel University, UK
• B. Eng. (Hons.) Electrical, Universiti Teknologi MARA, Malaysia
• Diploma in Electrical Engineering (Power), Universiti Teknologi
MARA, Malaysia
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Power System Operation and Control
BN-3-087
6383
[email protected]
Noraini Md Nusi
Education:
• Master in Applied Mathematics.
Malaysia)
(Univ.
• B. App. Sc (Hons.) in Computational Mathematics & CAGD. (Univ.
Sains Malaysia, Malaysia)
Area
of
specialization
/
research
interest:
• Computational Electromagnetic
• PDEs
• Scientific Computing
• Numerical Analysis.
Office:
Phone ext.:
Email:
: BA-3-071
2289
[email protected]
Nurzanariah Binti Roslan
Education:
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Electrical Power Engineering
• Simulation for Testing of XLPE Cable
BN-3-028
6395
[email protected]
213
Renuga A/P Verayiah
Education:
Malaysia)
Area
of
specialization
/
research
interest:
• Control Systems
• Power Systems
• Voltage Stability and Detection Method
• Voltage Collapse Studies
• Artificial Intelligence.
Office:
Phone ext.:
Email:
BN-3-075
6472
[email protected]
Sarveswaren a/l Karunanithi
Education:
Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Telemetry System
BN-2-009
2246
[email protected]
Shangari K. Raveendran
Education:
Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
BN-3-016
7281
[email protected]
214
Suhaida Mohd Sood
Education:
• MCM (Acc.) (Lincoln Univ., New Zealand)
• BCA (Hons.) (Victoria Univ. of Wellington, New Zealand)
• BCM (Lincoln Univ., New Zealand)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Engineering Economics
• Financial Accounting
• Energy policy.
Institute of Energy Policy and Research (IEPRe)
2379
[email protected]
Suhaila binti Sulaiman
Education:
UK)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Power cables
• Water treeing in cables
• Non-Destructive diagnostics for cables
BW-2-C13
3259
[email protected]
Syed Zainal Abidin bin Syed Kamarul Bahrin
Education:
Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Electrical Machines and Devices Design
• Opera 2D
• Robotics
BN-3-060
6277
[email protected]
215
COURSE DESCRIPTIONS
• ECCB111 INTRODUCTION TO COMPUTER AND COMMUNICATION
ENGINEERING (WORKSHOP)
BCCE(Core)
An overview of the subject area through weekly seminars by academic and
industry experts. The topics covered will range from a historical overview of the
growth of the two fields to more recent developments, and the close
relationship between the two. It is hoped that this will provide a students with
a better perspective to the field and prepare them for the courses ahead.
• ECCB114 CIRCUIT THEORY
BCCE(Core)
This subject provides introduction to fundamental theories and essential
concepts for circuit analysis. This includes OhmÓş law, KirchoffÓş voltage and
current laws, superposition, Thevenin and Norton theorems in DC circuits,
transient RL and RC DC analysis, as well as analysis with ideal Op-amp circuitry.
Also covered are frequency-domain studies which includes AC circuit analysis,
transfer functions and two-port networks.
• ECCB123 ELECTRONICS ANALYSIS AND DESIGN
BCCE(Core)
as diodes, BJTs and MOSFETs. Students will be exposed to types of diode and
their applications. Students will gain knowledge on basic DC and AC analysis
of circuit containing transistors, and also on the design of single stage amplifiers
and cascaded amplifiers.
• ECCB213 OBJECT ORIENTED PROGRAMMING
BCCE(Core)
An introduction of the process of program design and analysis for students with
216
some prior programming experience (functions, loops, and arrays implemented
in any programming language).
The course reinforces object-oriented
programming techniques in C# and covers basic of inheritance, polymorphism
and exception handling. Students will be able to design, build, test and debug
medium-size software systems and learn to use relevant software tools.
• ECCB233 DIGITAL SYSTEM DESIGN
BCCE(Core)
This course introduces the concept of designing robust and testable complex
sequential digital systems, which include synchronous and asynchronous
sequential systems, and Field Programmable Gate Array (FPGA)-based systems.
Additional topics discussed include design hierarchy and flow, the use of
hardware description languages (HDLs) in functional simulation, synthesis,
timing simulation and verification of digital systems, and the principal of
Design-for-Test for digital systems.
• ECCB243 COMPUTER ORGANIZATION AND ARCHITECTURE
BCCE(Core)
An introductory course to the principles and organization of modern computer
system built around the von Neumann architecture with emphasis on IA32
Architecture.
Introductory discussions are on terminology of computer
architecture, a layered model of computer architecture and computing platform
organization: CPU, memory, buses and I/O. CPU topics cover register
architecture, instruction set architecture (ISA), computer arithmetic, survey of
micro architecture (datapath and control).
Detail discussion on other
components of computing includes memory, buses and I/O. Introduce the
performance analysis of a CPU. A survey description of operating system
includes topics of scheduling and memory management. The course concludes
with brief overview of pipelining and superscalar processing.
• ECCB311 DIGITAL SIGNAL PROCESSING LAB
BCCE(Core)
Generation of Sinusoidal Waveform, Modulation, Digital Process of Continuous
Time Signal using MATLAB; Generation of Sinusoidal signal, Loop Program
using Interrupt - Inputting signals to the TMS320C6713 DSP starter kit (DSK)
and outputting signals from DSK, Finite Impulse Response Digital Filter (FIR) Implementing a real time FIR digital filtering operations using the
TMS320C6713 DSP Starter Kit (DSK).
• ECCB323 DATA STRUCTURE AND ALGORITHMS
BCCE(Core)
An overview of how data can be organized, sort and search. Topics included are:
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Linear data structure of array, list and linked-list, stack and queue. Non-linear
data structure of tree and graph. Some of the sorting techniques are bubble,
selection, insertion, merge and radix. Searching topics are linear search, binary
search, tree based searching techniques, and hash tables. NP-completeness, P
and NP classes of computational problems.
• ECCB343 DIGITAL COMMUNICATIONS
BCCE(Core)
This subject introduces the principles of digital communications including the
fundamental concepts of coding and modulation techniques. Its introduction
begins with the fundamentals of information theory which is essential in the
digital communications. The assignment in this course will provide a basic
design problem to develop understanding of the most popular coding
techniques. This course covers information theory, source encoding, baseband
transmission, principles of digital modulation and error control coding.
• ECCB363 WIRELESS AND MOBILE COMMUNICATION
BCCE(Core)
impedance matching network and mixers. The emphasis of this course is mainly
to focus on radio aspect of wireless and mobile communication systems.
Wireless technology of todayÓş and tomorrowÓş from first generation analogue
to modern multimedia system will be part of the topic discussed in this course.
Other topics such as frequency reuse, handoff, capacity planning, interference
and radio propagation are also included to provide solid fundamental
background in mobile radio communication.
• ECCB412 PROJECT 1
BCCE(Core)
• ECCB423 OPERATING SYSTEMS
BCCE(Core)
An Introduction of concepts and components of modern operating system.
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Overview of computer system structures and operating-system structures.
Introduction to abstractions such as process, thread, IPC, etc.
Process
management: processes, threads, scheduling, synchronization and deadlocks.
Memory management; main and virtual. Storage management: file system,
mass storage and I/O system. Protection and Security. Distribution systems.
• ECCB424 PROJECT II
BCCE(Core)
Pre-requisite: COEB314, ECCB412
• ECEB463 ARTIFICIAL INTELLIGENCE & NEURAL-FUZZY SYSTEMS
This course is aimed at introducing the underlying concepts of artificial
intelligence and some of its techniques and their applications. Artificial
intelligence (AI) involves the development of algorithms derived from human
and animal intelligence which have capabilities such as learning, reasoning,
generalisation, adaptation, reproduction, etc. These techniques are getting
more popular nowadays due to the large number of successful report of their
implementation. AI techniques have also made their way into many domestic
and industrial and provided solutions to many difficult engineering problems.
From this course, the students should be able to understand the two popular
techniques of AI. Ie. Artificial neural networks and fuzzy logic and how they are
used in solving some engineering and also non-engineering problems.
• ECEB473 ADVANCED MICROPROCESSOR
Introduction to the 68000 Microprocessor. Software details of the 68000.
Exception processing. Hardware details of the 68000. Memory system design,
I/O system design. Building a working 68000 system. Introduction to the
advanced 680X0 series microprocessors.
• ECEB483 COMPUTER ARCHITECTURE
BEEE(Elective)
An introductory course to the principles and architecture of modern computer
system built around the con Neumann architecture. A layered model of
computer architecture. Computer systems organization: CPU, memory and I/O.
The digital logic level. The micro architecture level: data path, microinstruction
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and design for simplify ISA. The instruction set architecture level: overview,
data types, instruction formats and types, addressing, and flow of control. The
operating system machine level: virtual memory and virtual I/O instructions.
The assembler language level: overview, macro, and the assembly process,
linking and loading.
• ECPB423 SYSTEMS-ON-CHIPS
BCCE(Elective)
An introduction to embedded system requirement, System-On-Chip (SoC) and
configurable soft-core processor. Implement hierarchical state machines design
using commercial EDA tools. Design and implement a custom IP core and
integrate it to the system busses. Implement simple low-level handler and test it
with the custom IP. Introduction to heterogeneous multi-core programming.
• ECPB433 INTRODUCTION TO COMPUTATIONAL BIOLOGY
BCCE(Elective)
Pre-requisite: TBD
This course presents an overview of important applications of computers to solve
problems in biology. Major topics covered are computational molecular biology,
biological modelling and simulation (including computer models of population
dynamics, biochemical kinetics, neuron behaviour, and mutation) and biological
imaging.
• ECPB443 MULTI-CORE PROGRAMMING
BCCE(Elective)
Pre-requisite: TBD
In this decade, the introduction of multi-core based system-on-chip (SoC) into
the computing market has created a revolution in the software industry. To
benefit from increases in hardware performance, software must be parallel. The
purpose of this course is to conduct the next generation of programmers to
develop exciting new applications that can take advantage of on-chip
parallelism. Over the past two years, every major microprocessor manufacturer
has introduced processor chips with multiple cores, with dual and quad core
processors for desktop and laptops, and over a hundred cores available in some
Graphics Processing Units. The expectation is that the number of cores per chip
will roughly double every two years while processor clock speeds will remain
relatively flat. This makes parallel programming a concern for the entire
computing industry. This course will provide an introduction to parallel
programming with a focus on the techniques that are most appropriate for
multi-core architectures and the use of parallelism to improve program
performance. The topics of the course include performance analysis and tuning,
data and task parallelism, synchronization techniques, shared data structures,
and load balancing.
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• ECPB453 DATABASE PROGRAMMING
BCCE(Elective)
Pre-requisite: TBD
This course emphasizes on the concepts of database, file-based system versus
database systems, database environment, and database management system
(DBMS). This course also emphasizes on conceptual, logical and physical design
of development life cycle. The course also covers; Entity relationship diagram,
ERD and Enhanced Entity Relationship, EER Model, unnormalized normal form,
UNF, first normal form, 1NF and second normal form, 2NF normalization of
database.
• ECPB463 ADVANCED COMPUTER ARCHITECTURE
BCCE(Elective)
This is an advanced undergraduate and introductory post-graduate course on
contemporary computer and processor architecture. Overall, the course will
cover current and emerging trend in computer architecture. The topics include;
Fundamental of computer design, instruction set principles and examples,
instruction level parallelism (pipelining, superscalar, VLIW, etc.), memory
hierarchy Design, multiprocessors and thread level parallelism, storage system,
and case study of current system. The course has mix of theory and hand-on
with software based design simulation. Students are required to write a
technical paper on recent development of computer architecture. They also
expect to complete a mini-project on a simplified computer system design.
• ECPB473 SOFTWARE ENGINEERING
BCCE(Elective)
Pre-requisite: TBD
(Not available yet)
• ECRB412 PROJECT 1
• ECRB424 PROJECT II
Pre-requisite: ECRB412, COEB314
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• ECSB413 SCADA SYSTEMS
BCCE(Elective)
The course will start by reviewing the objectives of implementation of
Distribution and Transmission Automation and Distribution and Transmission
SCADA History. The functions of SCADA System Elements will be explained
which include Transmission SCADA, Distribution SCADA , Host Equipment,
Host Computer System , Communication Front-End Processors, Full Graphics
User Interface , Relational Databases, Data Servers, and Web Servers and Host
to Field Communications. Detailed examinations into Field Devices will be
presented which includes Modern RTU, PLCs and IEDs that covers Substation
and Line configuration.
It will also touches on Tactical and Strategic
Implementation Issues, Distribution Management Platform and Advanced
Distribution Applications. The future trend in applications will be towards
integrated SCADA System and Smart Grid with Trouble Call and Outage
Management System and Distribution Operations Training Simulator that
considers Security, Practical Considerations and Choosing the Vendor. Latest
applications for Smart Grids will be introduced including remote metering,
remote billing, demand side management etc. Finally, the course will introduce
the importance of Standards that covers Internal Standards and Industry
Standards as well as Deployment Considerations.
• ECSB423 INTRODUCTION TO MODELING AND SIMULATION
BCCE(Elective)
An introduction to system modelling using computer simulation and analytical
mathematical techniques. Explanation of model classification such as Monte
Carlo simulation, discrete-event simulation, continuous system simulation,
mixed continuous/discrete-event simulation.
Discussion on quantitative
modeling paradigms such as queuing networks, stochastic process algebras and
stochastic Petri nets. Input-output analysis such as random number generator,
sample generation, trace- and execution-driven simulation, point and interval
estimation.
Focus of applications and case-study will be computer and
communication engineering.
• ECSB433 REAL TIME SYSTEMS
BCCE(Elective)
An introduction to real-time systems (RTS), followed by definition of terms used,
scheduling, RTOS and selected topics in real-time networking.
• ECSB443 ADVANCED DIGITAL SIGNAL PROCESSING
BCCE(Elective)
Students learn the essential advanced topics in digital signal processing that are
222
necessary for successful graduate-level research. The course includes a review
of the linear constant-coefficient system properties covered in an undergraduate
DSP course, and then examines a variety of multirate filter structures,
time-varying and adaptive systems, fast algorithms, and other topics relevant to
the research areas of the students.
• ECSB453 COMPUTER FORENSIC
BCCE(Elective)
Pre-requisite: TBD
This course teaches how to perform computer crime investigations. The course
covers the recovery and analysis of digital evidence, addressing legal and
technical issues. Forensic examination techniques of Windows and Unix systems
are used to illustrate typical investigation processes.
• ECSB463 INTERNET PROGRAMMING
BCCE(Elective)
Pre-requisite: TBD
This course introduces the fundamentals of internet and world wide web. The
concept of HTML, XHTML and CSS are also detailed. The course also covers the
creation of Internet based applications using the Java Scripts programming
language. It provides an in-depth knowledge for the creation of dynamic web
application with enhanced features by introducing various programming
techniques XML and RSS using Java Scripts.
• ECSB473 COMPUTER SECURITY
BCCE(Elective)
Pre-requisite: TBD
This course introduces the basic concepts of computer and internet security.
Students will learn a full range of security concepts & techniques and apply
them to the most popular operating systems and applications used today. Topics
include basic cryptography & public key infrastructure, theory behind common
attack and defence techniques, operating system security, programme security,
and distributed systems security.
• ECTB413 ANTENNA SYSTEMS
BCCE(Elective)
This subject is intended primarily for students who wish to specialise in
communication systems and would like to understand the principles and
current practice in wireless communication including both antennas and
propagation aspects. Its introduction begins with the basic properties of
electromagnetic radiation, before the subject dwells into antennas. In the rest
of the subject, the circuit models on antenna, different type of antennas from
dipoles to log periodic, loop to spiral and helical coil, and lastly reflector and
aperture type antennas will be dealt with comprehensively. The phase array
antenna in particular to the application of tracking will be introduced. And the
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applications of some of these antennas in communications systems will be
discussed thoroughly. Some minor assignments pertaining to antenna selection
and design for specific purposes using simulation softwareÓş will be given to
the students to gauge their understanding of the subject.
• ECTB423 BROADBAND TECHNOLOGIES
BCCE(Elective)
This course provides basic concepts in broadband communication and
networking. It provides an overall look at many type of equipment and
infrastructures that can be used in both fixed and wireless system today.
• ECTB433 COMMUNICATION ELECTRONICS
BCCE(Elective)
Pre-requisite: ECCB123, EECB353
impedance matching network and mixers.
• ECTB443 OPTICAL COMMUNICATIONS
BCCE(Elective)
Pre-requisite: TBD
This subject is concerned with the fundamentals of optical communications
systems.
Its introduction begins with the optical fibber communication
technology and fundamentals, historical generations of optical communications
and advantage and limitation of optical fibber communications. Topics covered
under this subject include the working principles of optical sources, optical
amplifiers, optical transmitter and receivers. In addition this course discusses
the fibber nonlinearities and their related effects in optical fibber
communication. Furthermore, this course introduces optical transmission
hierarchy and principles of optical networking with an emphasis on some
optical communication systems applications such as local area network and
optical access network.
• EECB351 COMMUNICATION SYSTEM LAB
BEEE(Core), BEPE (Core), BCCE(Core)
Co-requisite: EECB353
This course will expose students to the actual application of the communication
theory and concept that provides the students with hands on experience
experimental results analysis that could supplement their theory course on
communication system
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• EECB353 COMMUNICATION SYSTEM
Principle signal and system in communication system, probability, power spectral
and noise. Analog modulation; linear and non-linear system, digital modulation,
noise in modulation system, noise analysis, information theory and coding.
• EECB423 DATA COMMUNICATION AND NETWORKS
Transmission Media (telephone system, ISDN, ATM, cellular radio, satellites),
Data transmission (synchronous and asynchronous transmission, error
detection and correction, data link protocols), LANs, WANs, MANs,
internetworking, routing, congestion control, Transport protocols (TCP and
UDP),
Application
support
protocols
(session,
presentation),
Application-specific protocols (TELNET, FTP, SMTP)
• EECB433 APPLIED TELECOMMUNICATION SYSTEMS
This course will enable the students to gain insight into some of the state of the
art technologies and the important aspects of the up to date
telecommunications system applied in the current and future network
especially in Malaysian Network. Students will have clear understanding of the
behaviour and specialised concept of Telecommunication Network components.
Emphasis will be given on various Switching, Transmission and Signalling
System, which will enable the students to develop expertise in the applied
telecommunication system.
• EECB473 DATA NETWORK ARCHITECTURE AND ELECTRONICS
Review of data network architectures and technologies. An overview of current
networking electronics. An overview of network services and application.
Application bandwidth and delay requirements: Calculation and measurement.
Introduction to network design issues (bandwidth-delay product, throughput,
etc), design parameters and design process. Design parameters measurement
tools and techniques. Requirements Analysis: Concepts, Guidelines and
Practice. Capacity planning and traffic analysis: Throughput calculation,
probability models for traffic and design based on traffic model. Flow analysis:
Concepts, Guidelines and Practice.
Logical Design: Technology choice,
interconnect mechanism, network management and security. Physical Design:
Cabling and devices placement. Routing and addressing design. Network
simulation: Techniques and tools. Traditional network devices: Architecture,
components and software. Designing various specialized network devices
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architecture based on performance requirement.
Introduction to packet
processor:
Operating principles and application.
Packet processor
programming, simulation and design. Case Study: Packet processor in QoS
switches.
• EECB483 OPTOELECTRONICS AND FIBRE OPTICS
Pre-requisite: EEEB253, EECB353
Basics element of optics; Lights sources Öălasers and light emitting lasers: light
detectors, sensors and display; light modulations Öăelectrooptical; acousto
optical; magnetooptical; fiber optics.
• EECB493 RADIO-FREQUENCY / MICROWAVE ENGINEERING
Transmission Lines and Smith Chart, Matching Networks, Scattering
Parameters, Solid-state Microwave Monolithic IC, Microwave Passive
Components, Generators and Antennas.
• EEEB111 ELECTRICAL/ELECTRONICS MEASUREMENT LABORATORY
Co-requisite: EEEB113 (for BEEE & BEPE) or ECCB114 (for BCCE)
Experimental exercises in use of electronics instruments/equipment. Voltage,
current, impedance, frequency and waveform measurements. Transient and
frequency response. Application of operational Amplifier. Elements of circuit
modelling and design.
• EEEB113 CIRCUIT ANALYSIS I
Circuit elements voltage-current characteristics, independent and dependent
sources. KirchoffÓş laws nodal analysis, mesh current, source transformation.
TheveninÓş and NortonÓş theorems. Superposition principle. Operational
Amplifier terminal behaviour. Transient response of RC, RL and RLC circuits.
Sinusoidal steady-state and impedance. Instantaneous and average power.
Computer simulation tool (Pspice) in analysing electric circuits.
• EEEB114 PROGRAMMING FOR ENGINEERS
BCCE(Core), BEEE(Core), BEPE(Core)
The main objective of this course is to apply engineering methods to design
program solutions as being cohesive, readable and reusable on a standard
programming language.
226
• EEEB123 CIRCUIT ANALYSIS II
The course is a continuation of the EEEB113 course. Briefly, this course covers:Analysis of single-phase circuits and balanced three-phase circuits, and
magnetically coupled circuits including mutual inductance concept &
transformers; all in complex plane. Determination of frequency response via
transfer functions, Bode plots series and parallel resonance circuits, passive and
active filter designs (low-pass, high-pass, band-pass and band-stop). The
utilization of Laplace Transform technique to analyze linear circuits with and
without initial conditions, and relationship between the transfer function and
the impulse response of a circuit.
Derive Fourier series expressions of
waveforms and analysis of linear circuits using Fourier series.
The
characterization of circuits based upon impedance, admittance, and transfer
function parameters i.e. input-output characterization of a circuit as a two-port
network.
• EEEB141 ELECTRONICS DESIGN LABORATORY
Pre-requisite: EEEB111 (BCCE to include ECCB123)
Co-requisite: EEEB143 (NONE for BCCE)
Laboratory experiments in the measurement of electronic device characteristics
Öădiodes, Bipolar Junction Transistors (BJTs) and Field Effect Transistors
(FETs). Also involve design and analysis of electronic circuits such as rectifiers,
regulators, biasing networks, small-signal amplifiers and active filters. Students
will also simulate and analyze the circuit designed using CAD tools.
• EEEB143 ELECTRONICS ANALYSIS & DESIGN I
as diodes, FETs and BJTs. Students will gain knowledge on basic DC and AC
analysis of circuit containing such devices, and also on the design of simple
rectifier circuits and single stage amplifiers.
• EEEB161 DIGITAL LOGIC DESIGN LABORATORY
A series of laboratory projects dealing with the design, simulation, building and
testing of logic circuits. Projects chosen to reinforce material presented in
EEEB163 lecture. Written reports required.
• EEEB163 DIGITAL LOGIC DESIGN
227
An introduction to digital circuit and system design. Emphasis is on practical
design techniques and circuit implementation. Among the topics covered are
number systems and codes, Boolean Algebra, logic gates and flip-flops, electrical
characteristics, propagation delay and timing analysis, combinational logic
circuits, sequential (synchronous and asynchronous) logic circuits, arithmetic
circuits, digital subsystems and MSI logics such as counters, registers, encoders,
decoders, multiplexers, demultiplexers and code converters; memory and
programmable logic devices and digital systems design with top-down and
bottom-up structured design procedures including the use of CAD tools.
• EEEB233 SIGNALS AND SYSTEMS
Signal and system modeling concept, system analysis and design in both the
time-domain and frequency-domains. Continuous-time linear systems: Fourier
Series, Fourier Transform, bilateral Laplace Transform, application of Laplace
Transform. Discrete-time linear systems: difference equations, Discrete-Time
Fourier Transform, Z-Transform. Sampling, quantization, and discrete-time
processing of continuous-time signals.
• EEEB253 ELECTROMAGNETICS FIELDS & WAVES
Pre-requisite: MATB143 and [EEEB123 (for BEEE and BEPE) or ECCB114 (for
BCCE)]
Study of vector calculus, electrostatics and magnetostatics.
MaxwellÓş
equations. Introduction to electromagnetic waves, transmission lines and
radiation from antennas.
• EEEB273 ELECTRONICS ANALYSIS & DESIGN II
A continuation of EEEB143. The main objective of this course is to introduce
integrated circuit (IC) design and analysis. Concepts and application of basic
analog IC building blocks, such as current sources (as biasing and active loads),
differential amplifiers and output stages are used to understand the
fundamentals of the design of multistage amplifiers. Then, the application of
operational amplifier as an ideal device is studied, followed by the typical
applications of operational amplifier in electronics design.
• EEEB281 ELECTRICAL MACHINES LABORATORY
BEPE(Core)
The experiments in this course have been designed to support the theory study
in EEEB283/EEEB344: Electrical Machines and Drives course. The objectives of
this course are to provide students with basic knowledge and understanding of
electrical machinery and skills in doing measurement using measurement
228
equipment on electrical quantity. Laboratory experiments supplement the
theory with suitable practical, prove some theories, examine the accuracy of the
widely used approximate analytical methods and demonstrate basic practical
testing techniques of AC and DC machines.
• EEEB283 ELECTRICAL MACHINES & DRIVES
Pre-requisite: EEEB123, MATB113
The course begins by reviewing fundamental theories and laws pertaining to
magnetic and magnetically coupled circuits and also the principles behind
electromechanical energy conversion.
This will lead to studies of the
characteristics of dc machines, induction, synchronous machines and motor
drives. The course will also cover the application aspects of these devices in
industry. Students will do practical work and tests on selected devices covered
in this subject in EEEB281 Electrical Machines Laboratory.
• EEEB323 CONTROL SYSTEMS I
Pre-requisite: MATB143, EEEB233
Introduction to control systems-open loop and closed loop system; Laplace
transform; Modelling of continuous time systems (electrical and mechanical
systems); block diagrams and signal flow graphs; Time response analysis;
Steady state error; stability analysis; root locus; Frequency response and
Compensator Design.
• EEEB363 DIGITAL SIGNAL PROCESSING
Introduction to analysis, design and realization of digital filters. Discrete-time
signals, linear shift-invariant systems, sampling, Z transform, discrete Fourier
transform, Fast Fourier Transform, digital filter design Öăfinite impulse response
and infinite impulse response, quantization, finite word length. Introduction to
general applications of digital signal processing: modem, image processing, voice
synthesis, industrial control. Introduction DSP hardware; data acquisition system
and processor.
• EEEB371 MICROPROCESSOR SYSTEMS LABORATORY
Introduction to PIC18 micro-controller assembly and high level language
programming, debugging and design using simulator, memory address
decoding, interrupts, parallel port, serial communication, timer, and A/D
converter.
• EEEB373 MICROPROCESSOR SYSTEMS
229
The course begins by reviewing digital electronics with emphasis on number
systems and architecture of a microprocessor-based embedded system.
Attention is then focused on the architecture of a PIC18 microcontroller.
Throughout the course, programming is taught using assembly language and C
with the aid of MPLAB IDE and C compiler. Included in the course, is
programming of selected I/O devices within the PIC18 with external
interfacing, implemented using polling and interrupt I/O techniques.
• EEEB383 RANDOM PROCESS
Introduction to probability models in Electrical and Computer Engineering.
Probability Theory, Discrete and continuous random variables. Probability
Distribution: Binomial, Gaussian and Poisson. Application of the distribution
functions. Discrete and continuous random processes. Entropy. White Noise.
Computer method for synthesis and analysis of random processes.
• EEEB393 POWER ELECTRONICS
BEEE(Elective), BEPE(Core)
The course initially reviews fundamental concepts of power electronics circuits
which covering circuits such as rectifiers, dc?dc and inverter circuits. The course
also introduces the different types of switching devices including diodes, BJTs and
Thyristor based devices. The course provides analysis of the above mentioned
circuits using relevant formulae and performance assessment of these circuits
designed using circuit simulation. Students perform practical work and tests on
selected devices covered in this subject during the lab sessions.
• EEEB403 CAPSTONE DESIGN COURSE
Pre-requisite: COEB422 and [EEEB323, EEEB363 (for BEEE and BEPE) or
ECCB343 (for BCCE)]
The Capstone Design Course is a group-based design course to expose students
with real engineering problems which includes exposure to the importance of
project planning and management, communication skills and team work.
• EEEB423 CONTROL SYSTEMS II
Introduction to Discrete-Time Control System.
Review of Mathematical
Foundation. Analysis of Discrete-Time Systems. Design of Conventional
Discrete-Time Controllers. State Space Analysis of Continuous-Time Linear
Systems. Design of State Controllers and observers.
• EEEB443 CONTROL AND DRIVES
BEEE(Elective), BEPE(Elective)
230
The course begins by introducing the basic components of electric drives in which
the speed and torque of electric motors are controlled using power electronic
converters depending on the drive application. Thus, the dynamic model of dc
motors and induction motors will be derived in this course. This will lead to the
study on controlled-rectifier and chopper controlled dc motor drives under openloop and close-loop operation. The induction motor drives will cover the scalar
and field orientation control methods.
• EEEB473 IMAGE PROCESSING
Linear systems and Fourier transforms in two and three dimensions, Basic
image processing, Theory and algorithms for image reconstruction from
projections, Physics of imaging systems including magnetic resonance, X-ray
tomography, positron emission tomography and biomagnetic imaging.
• EEEB493 INTRODUCTION TO ROBOTICS
Introduction to robot fundamentals, geometry of workspace, kinematics
equation, inverse kinematics, trajectory planning, dynamics and control. Using
programming languages to command a robot to perform specific tasks.
• EEEB513 COMPUTER CONTROLLED SYSTEMS
BEEE (Elective), BCCE(Elective)
Introduction to discrete time control systems; Analysis of discrete-time control
systems; Design of controllers for discrete time systems; Use of MATLAB to design
discrete time controllers; Realization of Digital Controllers.
• EEIB413 PROCESS CONTROL AND INSTRUMENTATION
BCCE(Elective), BEEE(Core), BEPE (Core)
Pre-requisite: EEEB323, MEHB213
Modelling and simulation of process control loop. Laplace transform and
behaviour of first, second and higher order systems. Sensors, actuators and
controllers. Frequency response analysis. Advanced control system. Controller
design. Digital control technique. Process control design.
• EEPB353 ELECTRICAL POWER SYSTEM I
Power Systems 1 is the first course in the power system engineering sequence.
The course presents engineering techniques of power system analysis used in
the power industry today in sufficient depth to give the students the basic tools
for investigating power system issues at the undergraduate level. It is intended
231
for the students to develop a sound understanding of a broad range of topics
related to modeling of power system components and analyzing their interactions
under steady state conditions, as well as their deployments in coordinated power
network operations.
• EEPB383 ELECTRICAL POWER SYSTEM II
BEPE(Core), BEEE(Elective)
The course is a continuation from the course EEPB353, Electrical Power System
I. While Electrical Power System I deals primary on steady state phenomena of
power systems, Electrical Power System II covers transient related events of
power systems such as fault analysis and stability analysis. In addition, a
chapter on optimal dispatch of power generation is also included. Fundamental
theories and mathematical equations on transient phenomena of synchronous
machines are discussed. This leads to the analysis of balanced and unbalanced
faults in power systems. Solutions for unbalanced faults are approached using
symmetrical components analysis. The course also covers the fundamental
concept of the behavior of synchronous machines after a disturbance, i.e,
steady-state and transient stability.
• EEPB413 ELECTRICAL INSTALLATIONS
BEPE (Elective)
The course introduces the basic engineering principles for electrical installation
methods, codes and standards. The core of the course in on the design of
electrical systems for residential, commercial and industrial sectors with
emphasis on grounding and voltage drop calculation.
• EEPB423 ELECTRICAL SAFETY AND HAZARDS
BEPE (Elective)
The course is designed to include the basics of electrical hazards and safety
related work practices in compliance with national codes and health standards.
Personnel safety and the use of personal protective equipment at various
occupational locations will also be covered.
• EEPB463 HIGH VOLTAGE TECHNOLOGY
BEPE(Core)
This course covers topics under high voltage engineering fundamentals
including conduction and breakdown in gases, conduction and breakdown in
liquid dielectrics, breakdown in solid dielectrics, generation of high voltages
and currents, measurement of high voltages and currents, non-destructive
diagnostic testing, overvoltage phenomena and insulation coordination.
• EEPB473 POWER SYSTEM PROTECTION
232
BEPE(Elective)
To expose students to the protection philosophies employed by power utilities
especially TNB. Students are introduced to elements such as protection zones,
types of faults, CTs and VTs. Protection philosophies covered include those used
in distance protection, auto-reclosing schemes, transmissions lines, substations
and generators.
• EEPB493 HVDC AND FACTS DEVICES
BEPE(Elective)
Pre-requisite: EEEB393, EEPB353
The course covers key component of HVDC and FACTS devices i.e. SVC,
STATCON and SMES technology devices which is becoming more common in
power systems today. The course will look at each systems capabilities and
limitations.
• EESB313 SEMICONDUCTOR DEVICES
BEEE(Core)
BASIC CONCEPTS: Electric field and related phenomena, Capacitance &
dielectrics, current & resistance; Magnetic field and related phenomena; Energy,
kinetic & thermal; Mobility & conductivity. ENERGY BAND STRUCTURE: Basis
of semiconductor behaviour, Bohr Atomic Model, bonding forces in solids,
covalent bonds; Band structure of solids: metals, insulators & extrinsic
semiconductors; Nearly Free Electron Model, direct-gap and indirect-gap
semiconductors; Optical transitions in a semiconductor. CHARGE CARRIERS IN
SEMICONDUCTORS: Electrons, holes, distribution of charge carriers, density of
states function & the Fermi Function; Carrier densities in intrinsic & extrinsic
semiconductors.
EXCESS CARRIERS: Optical absorption, luminescence,
photoconductivity, carrier lifetime, Optical sensitivity of a photoconductive
device. FABRICATION TECHNIQUES: Single crystals, epitaxial layers, p-n
junctions. P-N JUNCTIONS: Drift & Diffusion currents, depletion region, contact
potential, band diagrams, I-V characteristics, capacitance, reverse breakdown;
Rectifiers, switches, breakdown diodes, varactor diodes, solar cells, PIN
photodiodes, LEDs, solid state lasers. TRANSISTORS: Charge flow in a BJT,
JFETs, MOSFETs, CMOS
• EESB423 VLSI DESIGN
To give an overall view of VLSI design methodologies, fabrication process and
solutions to VLSI design problems; To give the experience of using with the
state-of-art commercial EDA software; To provide the knowledge and skill
necessary to design, analyze, simulate and implementing a system project.
Topics include Design and Process Technology, Full custom design, Semi-custom
233
design, Hardware description languages, System on Chip, Design For Testability
• EESB433 ANALOG IC DESIGN
Pre-requisite: [EEEB273 (for BEEE) / ECCB113 (for BCCE)] and EEEB363
Objectives: This is an advance course for analyzing and designing analog
integrated circuits.
It gives an overall view of analog design flow
methodologies, layout and fabrication process. Students will be exposed to IC
design tools like HSPICE, Cosmos and Magic. The objective of the class is to
provide students with the necessary skill to analyze, simulate and design analog
subcircuits.
• EESB493 EMBEDDED SYSTEMS
BEEE(Elective), BCCE(Core)
The course will cover examples of embedded computer systems, its
specifications such as timeliness and physical constraints (size, power, weight,
and memory footprint), embedded system hardware components such as
processor, bus hierarchy with arbiter, interrupt controller, serial communication,
field programmable gate array (FPGA), and embedded system software such as
C program, multi-threading concept, and hardware descriptive language (HDL).
Student are expected to design an embedded system including writing VHDL
codes and implement it on an evaluation board.
• EPEB413 POWER QUALITY
BEPE(Elective)
Students are introduced to power quality phenomena such as voltage sag/swell,
distortions, unbalance, and flicker that occur in power systems. The course
begins with terms and definitions associated with power quality, following
which each phenomenon, that is, voltage sag/swell, transient overvoltage,
harmonics, and flicker is presented and discussed in detail for students to
understand the sources and impact of these occurrences on power system as
well as typical mitigation techniques. Finally, students are introduced to power
quality benchmarking, monitoring and assessment in regards to international
standards. Computer simulation tools are used to help students understand the
materials.
• EPEB423 ELECTRICITY INDUSTRY ECONOMICS
BEPE(Elective)
Pre-requisite: EEPB383 Electrical Power System 2
The course will deal with the application of the economic theory to the
Electricity Supply Industry (ESI). The students will be exposed to new theories
such as monopoly, oligopoly and its characteristics which are pertinent in
electricity markets. Pricing techniques will also be covered in order to expose
students on the business aspect which can be derived from economic theory.
234
• EPEB433 POWER SYSTEM COMMUNICATIONS
BEPE (Elective)
Pre-requisite : EECB353, EEPB353
The course begins by introducing the concept of power system monitoring and
control. It introduces the various communication services, technologies and
their applications in power system. It introduces some of the basic power
system monitoring and control applications that use these communication
technologies e.g. Teleprotection, SCADA and Substation Automation. Issues
that relates to the planning and design of these systems are also described.
• EPEB443 ENERGY CONVERSION
BEPE(Elective)
Pre-requisite: MATB113, PHYF124, EEEB283
The course begins by reviewing the basic principles and theories in energy
conversion. Then the course reviews the advances in energy conversion
technologies. This will lead to the study on the application of the theory on
energy conversions in the production of electrical power from different sources
of energy, including the renewable energy. The course will also discuss selected
themes such as energy utilisation, total energy production cost & ancilliary
service, tariff methodology, energy security, security & uplift cost, energy
forecast, National Energy Balance policy and the issues in the connection of
generators to the National Grid.
• EPEB453 POWER DISTRIBUTION ENGINEERING
BEPE(Elective)
The course covers planning, design and operation of Medium (MV) and Low
voltage (LV) distribution systems network. The students will be introduced to
the construction and operation of various major components used in
distribution system. The course is also aimed to give exposure on distribution
system protection, reliability, power quality, loss reduction and distributed
generations.
• EPRB412 PROJECT 1
fulfillment for the award of the bachelorÓş degree. The final year project to be
• EPRB424 PROJECT II
Pre-requisite: EPRB412, COEB314
the student as partial fulfillment for the award of the bachelorÓş degree. The
235
calculus.
equations.
236
237
Part VIII
DEPARTMENT OF MECHANICAL
ENGINEERING
238
INTRODUCTION
The Department of Mechanical Engineering provides an excellent learning
environment with state-of-the-art facilities and highly qualified academic staff
with extensive level of expertise over a broad range of subject areas. Its research
and teaching activities include applied mechanics and materials, thermal
engineering, and manufacturing systems.
The Department of Mechanical
Engineering strives to provide quality education to prepare students for position in
industry, commerce and academic. The comprehensive and innovative content
and teaching techniques adopted are designed towards expanding the frontiers of
learning and inculcating a probing mind. Students will be challenged to develop
into multi-skilled professionals possessing mental, intellectual and emotional
fortitude to succeed in life.
The Department of Mechanical Engineering offers the following programmes,
Bachelor of Mechanical Engineering (Hons.), Master of Mechanical Engineering
and Ph.D. in Engineering. Over the past 18 years, the Department has grown
tremendously, from only 95 students in 1997 to the current number of more than
1600 students and from only 4 academic staff in 1997 to more than 90 at present.
The curricula, further enhanced with project work, research, open-ended
experiments and practical training, are designed with inputs from the industrial
and commercial sectors as well as from local and foreign universities. The
emphasis is towards producing professionals to fulfil the needs of industry and
commerce in particular and the nation in general. More specifically, graduates
from this course will have the knowledge and competencies required to become
competent Mechanical Engineer, Design Engineer, Failure Analysis Engineer,
Manufacturing Engineer, Maintenance Engineer, Sales Engineer, Academia and
Mechanical Engineering Consultants.
The Mechanical Engineering programme provides a strong base in the Mechanical
Engineering with a well-established balance between theory and experiments
during the four years of study. The curriculum consists of a good mix of general
courses as well as core Mechanical Engineering courses. A total of 127 credit
hours of courses being taught in 8 semesters and on average there are 5-6 courses
239
per semester being taught. The programme also contains a compulsory Industrial
Training attachment after semester 6 for a period of not less than 12 weeks. The
idea of this attachment is to enable students to gain firsthand experience in
industry as well as an insight to how theories are put into practice in the real
engineering situations. This short attachment in industry was beneficial as it
provides the intellectual challenge to students especially in the final year and
when carrying out their final year project.
The programmes are complemented by laboratory work. The department has ten
laboratories, which are:
• Machine Shop
• Computational Fluid Dynamics
• Mechanics of Materials
• Instrumentation and Measurement
• Machine Design
• Advanced Manufacturing
• Automation and Robotics
• Computer Aided Design and
Computer Aided Engineering
• Fluid Mechanics
• Applied Thermodynamics
Heat Transfer
and
• Internal Combustion Engine
In this era of globalization and the need for sustainable development, the
fraternity has recognised the need to measure the quality of the programme and
attributes of the graduates. To address this issue, Malaysia has embarked on a
journey towards adopting the principles of Outcome-Based Education (OBE). In
line with this effort, the Mechanical Engineering Department strives to continually
pursue its commitment of providing high quality engineering education. The
Department implements OBE as part of the delivery of the Mechanical
Engineering programme since December 2006.
UNITEN produces Mechanical Engineering graduates who:
PEO1
PEO2
PEO3
PEO4
Practicing engineers in mechanical engineering with the ability to venture
into energy related business.
Have professional qualifications/certifications in mechanical engineering
related areas.
240
Students graduating from the Bachelor of Mechanical Engineering programme
will have the ability to:
PO1
PO2
PO3
PO4
PO5
PO6
PO7
PO8
PO9
PO10
PO11
PO12
Apply fundamental knowledge of mathematics, science and mechanical
engineering principles in solving complex problems.
Identify, formulate, analyze and solve complex mechanical engineering
problem
Design solutions for complex mechanical engineering problems that meet
investigating complex problems related to mechanical engineering.
practice.
leader.
241
Bachelor of Mechanical Engineering: Programme Structure for Malaysian
Semester
Code
Course
Semester
I
MATB113
Advanced
Calculus
&
Analytical Geometry
Engineering Graphics & CAE
Principles of Programming
Engineering Materials
Total Credit Hours
for Engineers I
Manufacturing Processes Lab
Linear Algebra
MEMB113
CSEB113
ETIB113
METB113
Semester
II
Semester
III
MATB143
ICEB113/
MCEB113
MEFB121
MEMB123
MATB253
TECB213
MEFB213
MEHB213
MEMB233
EEEB113
EEEB111
ICEB212/
MCEB212
Total Credit Hours
Manufacturing Processes
Thermodynamics I
Circuits Analysis I
Electrical Measurement Lab
for Engineers II
Total Credit Hours
Credit
Hours
3
3
3
3
3
15
3
3
1
3
3
3
16
3
3
3
3
1
2
Prerequisite
NONE
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
METB113
NONE
NONE
MEMB113,
METB113
NONE
NONE
NONE
NONE
MEFB121
NONE
MEMB123
NONE
NONE
ICEB113/
MCEB113
NONE
NONE
NONE
MATB113
EEEB113
NONE
15
Continue
242
Semester
Code
Semester
COEB223
IV
MEMB243
MEMB221
MEHB223
MEHB221
MEMB263
Semester
V
MEHB312
MEHB332
MESB323
Numerical
Methods
Engineers
For
Credit
Hours
3
3
Mechanics and Materials Lab
Mechanics of Fluids I
Fluids Mechanics Lab
Theory of Machines
Total Credit Hours
Thermodynamics II
1
3
1
3
14
2
NONE
NONE
3
MEMB243,
MEFB213,
MEMB263
MEMB263,
MEMB113
MATB143,
EEEB113
MEHB223,
MEMB243
MEFB213
NONE
MEHB213,
MEHB223
MEHB213,
MEHB223
MEMB233,
MEMB263
MEMB333
NONE
NONE
MEHB323
NONE
NONE
MEMB333
NONE
NONE
MEMB263,
70 CH
NONE
1
MESB333
Engineering Measurements &
Lab
3
COEB442
Total Credit Hours
Heat Transfer
MEHB321
MEMB343
MEMB322
AKPK111
***
COEB422
COEB314
MEMB243
NONE
MEHB223
NONE
MEHB223
MATB143
Machine Design & CAD Lab
VI
NONE
2
3
MEMB331
MEHB323
Continuation
Corequisite
CSEB113
NONE
MEMB333
of
Prerequisite
MATB143,
MATB253
MEMB123,
MATB113
METB113
MEMB123
NONE
MEMB233
MEHB213
Mechanics of Fluids II
Modeling & Control
Dynamic Systems
Machine Design
Semester
Special
Semester
Course
2
16
3
Heat Transfer & Applied
Thermo. Lab
Mechanical Vibrations
1
Mechanical Design Process
Personal
Financial
Management
Total Credit Hours
Industrial Training
2
1
3
2
15
4
Total Credit Hours
4
3
NONE
NONE
NONE
NONE
NONE
Continue
243
Semester
Code
Semester
VII
MPRB412
COEB432
MESB443
Project 1
Electro-Mechanical Systems
Credit
Hours
2
2
3
EHEB113
***
***
Hubungan Etnik
Total Credit Hours
Project II
3
3
3
16
4
Capstone Design
Technical Elective V
Total Credit Hours
3
3
3
3
16
127
Semester
VIII
MPRB424
MEMB483
***
***
***
Course
Prerequisite
MEMB322
MEMB243
MATB113,
EEEB113,
MEMB333
NONE
NONE
NONE
COEB314,
MPRB412
MEMB322
Thermal Engineering
MEHB403
Power Generation
3
MEHB312,
MEHB332
MEHB413
Heating, Ventilation & Air
3
MEHB312,
Conditioning
MEHB223,
(only offered in Semester 1)
MEHB323
MEHB423
Turbomachinery
3
MEHB312,
MEHB332
MEHB433
Combustion Engineering
3
MEHB312,
MEHB332
MEHB443
3
MEHB312,
MEHB332
MEHB453
Industrial
Energy
3
MEHB323
Management
MEHB463
Computational
Fluid
3
MEHB332,
Dynamics
COEB223
MEHB483
Thermal Systems Design and
3
MEHB323
Optimization
MEHB493
Internal Combustion Engines
3
MEHB312,
MEHB332
MEHB503
Renewable Energy
3
MEHB213,
COEB442
MEHB513
Introduction
to
Nuclear
3
COEB442
Technology
MEHB523
3
COEB442
Engineering
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
MESB443
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
Continue
244
Semester
Code
Nuclear Engineering
MENB403
MENB413
MENB423
MENB433
MENB443
MENB453
Applied Mechanics
MEMB403
MEMB413
MEMB423
MEMB453
MEMB463
MEMB473
METB413
Mechatronics
MESB403
MESB413
MESB423
ECEB463
Continuation
Corequisite
Course
Credit
Hours
Prerequisite
Introduction
to
Nuclear
Engineering
Management
Safeguards
3
COEB422
NONE
3
COEB422
NONE
3
COEB422
NONE
3
COEB422
NONE
3
3
COEB422
COEB422
NONE
NONE
Condition Monitoring and
Maintenance Eng
Engineering Mechanics Simulation
Finite Element Method
Non Destructive Testing
Failure Analysis and Design
Advanced
Mechanics
of
Materials
Advanced Materials
3
NONE
3
3
MEMB333,
MESB323
MEMB333,
MESB323
MEMB333,
COEB223
MEMB333
MEMB333
3
MEMB243
NONE
3
MEMB333,
METB113
NONE
Automation & Robotics
Robot Design
3
MESB323,
MEFB213
MESB323
NONE
NONE
Artificial Intelligence
Neural Fuzzy System
3
MEMB333,
MESB323
MESB323
and
3
3
3
3
NONE
NONE
NONE
NONE
NONE
NONE
Continue
245
Semester
Code
Course
Manufacturing Systems
MEFB413
Advanced
Manufacturing
Processes
MEFB433
Production, Planning and
Control
MEFB443
Industrial Engineering
Prerequisite
3
MEMB333,
MEFB213
MEMB333,
MEFB213
MEMB333,
MEFB213
MEMB333,
MEFB213
MEMB331,
MEFB213
NONE
MESB323
NONE
3
3
MEFB453
Total Quality Management
3
MEFB473
Computer
Aided
Manufacturing
Process
Control
&
Instrumentation
3
EEIB413
AKPK111
EHEB113
ICEB113/
MCEB113
ICEB212/
MCEB212
ETIB113
MLKB113
KDKB113
SPRB113
KKSB113
RELB113
PKIB113
SPYB113
MANB113
FRAB113
GERB113
JAPB113
3
Personal
Financial
1
EEEB323
Management
Hubungan Etnik
3
EEEB373
3
NONE
3
ICEB113/
MCEB113
3
NONE
Asia
Bahasa
Kebangsaan
A
3
NONE
3
NONE
3
NONE
Workplaces
3
NONE
3
NONE
Creative Thinking
3
NONE
Introduction
to
Social
3
NONE
Psychology
Mandarin Language
3
NONE
Basic French
3
NONE
Basic German
3
NONE
Japanese Language
3
NONE
Continuation
Corequisite
Credit
Hours
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
246
Bachelor of Mechanical Engineering: Programme Structure for International
Semester
Code
Course
Semester
I
MATB113
Advanced
Calculus
&
Analytical Geometry
Malay
Language
for
Total Credit Hours
International
MPU
Compulsory [U2]
Linear Algebra
MEMB113
CSEB113
MALB103
METB113
Semester
II
MATB143
***
MEFB121
MEMB123
MATB253
TECB213
Semester
III
MEFB213
MEHB213
MEMB233
EEEB113
EEEB111
***
Semester
COEB223
IV
MEMB243
MEMB221
MEHB223
MEHB221
MEMB263
Credit
Hours
3
Prerequisite
NONE
Corequisite
NONE
3
3
3
NONE
NONE
NONE
NONE
NONE
NONE
3
15
3
3
NONE
NONE
NONE
NONE
NONE
NONE
METB113
NONE
NONE
MEMB113,
METB113
NONE
NONE
NONE
NONE
MEFB121
NONE
MEMB123
NONE
NONE
NONE
NONE
NONE
NONE
MATB113
EEEB113
NONE
MATB143,
MATB253
MEMB123,
MATB113
METB113
MEMB123
NONE
MEMB233
CSEB113
3
3
3
3
Total Credit Hours
Thermodynamics I
Circuits Analysis I
International
MPU
Compulsory [U2]
Total Credit Hours
Numerical
Methods
For
Engineers
16
3
3
3
3
1
3
Theory of Machines
Total Credit Hours
1
3
1
3
14
16
3
3
NONE
MEMB243
NONE
MEHB223
NONE
Continue
247
Semester
Code
Semester
V
MEHB312
Thermodynamics II
MEHB332
MESB323
MEMB333
Modeling & Control
Dynamic Systems
Machine Design
MEMB331
1
MESB333
Lab
3
COEB442
Total Credit Hours
Heat Transfer
Semester
MEHB323
VI
MEHB321
MEMB343
MEMB322
***
Course
Prerequisite
MEHB213
2
3
MEHB223
MATB143
NONE
NONE
3
MEMB243,
MEFB213,
MEMB263
MEMB263,
MEMB113
MATB143,
EEEB113
MEHB223,
MEMB243
MEFB213
NONE
MEHB213,
MEHB223
MEHB213,
MEHB223
MEMB233,
MEMB263
MEMB333
NONE
NONE
MEHB323
NONE
MEMB333
NONE
MEMB263,
70 CH
NONE
MEMB322
MEMB243
MATB113,
EEEB113,
MEMB333
NONE
NONE
NONE
NONE
of
2
16
3
Thermo. Lab
1
2
3
3
Special
Semester
COEB314
International
MPU
Compulsory [U4]
Total Credit Hours
Industrial Training
MPRB412
COEB432
MESB443
Total Credit Hours
Project 1
4
Semester
VII
Malaysian Studies
Total Credit Hours
3
3
3
16
COEB422
MASB113
***
***
Continuation
Corequisite
NONE
Credit
Hours
2
2
14
4
2
2
3
NONE
NONE
NONE
NONE
NONE
NONE
Continue
248
Semester
Code
Course
Semester
VIII
MPRB424
Project II
Credit
Hours
4
MEMB483
***
***
***
Capstone Design
Total Credit Hours
3
3
3
3
16
127
Prerequisite
COEB314,
MPRB412
MEMB322
Thermal Engineering
MEHB403
Power Generation
3
MEHB312,
MEHB332
MEHB413
3
MEHB312,
Conditioning
MEHB223,
MEHB323
MEHB423
Turbomachinery
3
MEHB312,
MEHB332
MEHB433
3
MEHB312,
MEHB332
MEHB443
3
MEHB312,
MEHB332
MEHB453
Industrial
Energy
3
MEHB323
Management
MEHB463
Computational
Fluid
3
MEHB332,
Dynamics
COEB223
MEHB483
3
MEHB323
Optimization
MEHB493
3
MEHB312,
MEHB332
MEHB503
Renewable Energy
3
MEHB213,
COEB442
MEHB513
Introduction
to
Nuclear
3
COEB442
Technology
MEHB523
3
COEB442
Engineering
Nuclear Engineering
MENB403
MENB413
MENB423
Introduction
to
Nuclear
Engineering
Continuation
Corequisite
NONE
MESB443
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
3
COEB422
NONE
3
COEB422
NONE
3
COEB422
NONE
Continue
249
Semester
Code
Course
MENB433
Management
Safeguards
MENB443
MENB453
Applied Mechanics
MEMB403
MEMB413
MEMB423
MEMB453
MEMB463
MEMB473
METB413
Mechatronics
MESB403
MESB413
MESB423
ECEB463
Prerequisite
COEB422
3
3
COEB422
COEB422
NONE
NONE
Maintenance Eng
Advanced
Mechanics
of
Materials
Advanced Materials
3
NONE
3
3
MEMB333,
MESB323
MEMB333,
MESB323
MEMB333,
COEB223
MEMB333
MEMB333
3
MEMB243
NONE
3
MEMB333,
METB113
NONE
Robot Design
3
MESB323,
MEFB213
MESB323
NONE
NONE
Neural Fuzzy System
3
MEMB333,
MESB323
MESB323
MEMB333,
MEFB213
MEMB333,
MEFB213
MEMB333,
MEFB213
MEMB333,
MEFB213
MEMB331,
MEFB213
NONE
MESB323
NONE
and
MEFB413
Advanced
Manufacturing
Processes
MEFB433
Control
MEFB443
3
3
3
3
3
3
3
MEFB453
3
MEFB473
Computer
Aided
Manufacturing
Process
Control
&
Instrumentation
3
EEIB413
Continuation
Corequisite
NONE
Credit
Hours
3
3
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
Continue
250
Semester
Code
MALB103
MASB113
Course
Credit
Hours
Malay
Language
for
3
Malaysian Studies
3
Prerequisite
NONE
NONE
NONE
NONE
FRAB113
Basic French
3
NONE
GERB113
Basic German
3
NONE
JAPB113
Japanese Language
3
NONE
MALB203
3
NONE
Student
MANB113
Mandarin Language
3
NONE
PKIB113
Creative Thinking
3
NONE
SPYB113
Introduction
to
Social
3
NONE
Psychology
RELB113
3
NONE
SPRB113
Sports
and
Recreation
3
NONE
HFTB113
Health and Fitness
3
NONE
ISWB113
3
NONE
Continuation
Corequisite
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
251
Bachelor of Mechanical Engineering: Programme Structure for Malaysian
Students (For Special Semester Intake starting from Semester 1, 2016/2017)
Semester
Code
Course
Special
Semester
1
MEMB123
ETIB113
Semester
I
MATB113
Semester
III
Prerequisite
NONE
NONE
Corequisite
NONE
NONE
3
NONE
NONE
3
3
3
3
15
3
3
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
METB113
MEMB123
NONE
MEMB113,
METB113
NONE
NONE
NONE
NONE
MEFB121
MEMB233
MEMB123,
MATB113
METB113
NONE
NONE
ICEB113/
MCEB113
NONE
NONE
NONE
6
MATB143
ICEB113/
MCEB113
MEFB121
MEMB233
MEHB213
TECB213
Total Credit Hours
Advanced
Calculus
&
Analytical Geometry
Linear Algebra
Total Credit Hours
for Engineers I
Thermodynamics I
MEFB213
MEMB263
MEMB243
Total Credit Hours
Theory of Machines
16
3
3
3
MEMB113
CSEB113
MATB253
METB113
Semester
II
Credit
Hours
3
3
MEMB221
EEEB113
EEEB111
ICEB212/
MCEB212
Circuits Analysis I
for Engineers II
Total Credit Hours
1
3
3
3
1
3
1
2
MEMB243
MATB113
EEEB113
NONE
16
Continue
252
Semester
Code
Semester
IV
COEB223
Special
Semester
2
MEHB312
MEMB333
MEMB331
MEHB223
MEHB221
COEB442
Total Credit Hours
Hubungan Etnik
3
1
2
15
3
3
Total Credit Hours
8
***
EHEB113
2
3
1
Prerequisite
MATB143,
MATB253
MEHB213
MEMB243,
MEFB213,
MEMB263
MEMB263,
MEMB113
MEMB123
NONE
MEFB213
Continuation
Corequisite
CSEB113
NONE
NONE
NONE
NONE
MEHB223
NONE
NONE
NONE
NONE
NONE
2
MEMB243
NONE
2
MEHB223
NONE
Modeling & Control of
Dynamic Systems
Lab
3
MATB143
NONE
2
2
3
NONE
MEHB323
NONE
MEMB343
3
AKPK111
Personal
Financial
Management
Total Credit Hours
Heat Transfer
1
MEMB333
MEMB333
MATB143,
EEEB113
MEHB223,
MEMB243
MEMB233,
MEMB263
NONE
MEHB213,
MEHB223
MEHB213,
MEHB223
MATB113,
EEEB113,
MEMB333
MEMB322
NONE
NONE
NONE
MEMB263,
70 CH
NONE
MEHB332
MESB323
COEB422
MEMB322
MESB333
Semester
MEHB323
VI
MEHB321
MESB443
MPRB412
***
***
Special
Semester
For
Credit
Hours
3
Numerical
Methods
Engineers
Thermodynamics II
Machine Design
COEB432
Semester
V
Course
COEB314
16
3
Thermo. Lab
1
3
Project 1
Total Credit Hours
Industrial Training
2
3
3
15
4
Total Credit Hours
4
NONE
NONE
NONE
NONE
NONE
NONE
NONE
Continue
253
Semester
Code
Course
Semester
VII
MPRB424
Project II
Credit
Hours
4
MEMB483
***
***
***
Capstone Design
Total Credit Hours
3
3
3
3
16
127
Prerequisite
COEB314,
MPRB412
MEMB322
Thermal Engineering
MEHB403
Power Generation
3
MEHB312,
MEHB332
MEHB413
3
MEHB312,
Conditioning
MEHB223,
MEHB323
MEHB423
Turbomachinery
3
MEHB312,
MEHB332
MEHB433
3
MEHB312,
MEHB332
MEHB443
3
MEHB312,
MEHB332
MEHB453
Industrial
Energy
3
MEHB323
Management
MEHB463
Computational
Fluid
3
MEHB332,
Dynamics
COEB223
MEHB483
3
MEHB323
Optimization
MEHB493
3
MEHB312,
MEHB332
MEHB503
Renewable Energy
3
MEHB213,
COEB442
MEHB513
Introduction
to
Nuclear
3
COEB442
Technology
MEHB523
3
COEB442
Engineering
Continuation
Corequisite
NONE
MESB443
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
Continue
254
Semester
Code
Nuclear Engineering
MENB403
MENB413
MENB423
MENB433
MENB443
MENB453
Applied Mechanics
MEMB403
MEMB413
MEMB423
MEMB453
MEMB463
MEMB473
METB413
Mechatronics
MESB403
MESB413
MESB423
ECEB463
Continuation
Corequisite
Course
Credit
Hours
Prerequisite
Introduction
to
Nuclear
Engineering
Management
Safeguards
3
COEB422
NONE
3
COEB422
NONE
3
COEB422
NONE
3
COEB422
NONE
3
3
COEB422
COEB422
NONE
NONE
Maintenance Eng
Advanced
Mechanics
of
Materials
Advanced Materials
3
NONE
3
3
MEMB333,
MESB323
MEMB333,
MESB323
MEMB333,
COEB223
MEMB333
MEMB333
3
MEMB243
NONE
3
MEMB333,
METB113
NONE
Robot Design
3
MESB323,
MEFB213
MESB323
NONE
NONE
Neural Fuzzy System
3
MEMB333,
MESB323
MESB323
and
3
3
3
3
NONE
NONE
NONE
NONE
NONE
NONE
Continue
255
Semester
Code
Course
MEFB413
Advanced
Manufacturing
Processes
MEFB433
Control
MEFB443
Prerequisite
3
MEMB333,
MEFB213
MEMB333,
MEFB213
MEMB333,
MEFB213
MEMB333,
MEFB213
MEMB331,
MEFB213
NONE
MESB323
NONE
3
3
MEFB453
3
MEFB473
Computer
Aided
Manufacturing
Process
Control
&
Instrumentation
3
EEIB413
AKPK111
EHEB113
ICEB113/
MCEB113
ICEB212/
MCEB212
ETIB113
MLKB113
KDKB113
SPRB113
KKSB113
RELB113
PKIB113
SPYB113
MANB113
FRAB113
GERB113
JAPB113
3
Personal
Financial
1
EEEB323
Management
Hubungan Etnik
3
EEEB373
3
NONE
3
ICEB113/
MCEB113
3
NONE
Asia
Bahasa
Kebangsaan
A
3
NONE
3
NONE
3
NONE
Workplaces
3
NONE
3
NONE
Creative Thinking
3
NONE
Introduction
to
Social
3
NONE
Psychology
Mandarin Language
3
NONE
Basic French
3
NONE
Basic German
3
NONE
Japanese Language
3
NONE
Continuation
Corequisite
Credit
Hours
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
256
Bachelor of Mechanical Engineering: Programme Structure for International
Students (For Special Semester Intake starting from Semester 1, 2016/2017)
Semester
Code
Course
Special
Semester
1
MEMB123
MALB103
Semester
I
MATB113
MEFB121
MEMB233
MEHB213
TECB213
Malay
Language
for
Total Credit Hours
Advanced
Calculus
&
Analytical Geometry
Linear Algebra
Total Credit Hours
International
MPU
Compulsory [U2]
Thermodynamics I
MEFB213
MEMB263
MEMB243
Total Credit Hours
Theory of Machines
MEMB113
CSEB113
MATB253
METB113
Semester
II
Semester
III
MATB143
***
MEMB221
EEEB113
EEEB111
***
Circuits Analysis I
International
MPU
Compulsory [U3]
Total Credit Hours
Credit
Hours
3
3
Prerequisite
NONE
NONE
Corequisite
NONE
NONE
3
NONE
NONE
3
3
3
3
15
3
3
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
METB113
MEMB123
NONE
MEMB113,
METB113
NONE
NONE
NONE
NONE
MEFB121
MEMB233
MEMB123,
MATB113
METB113
NONE
NONE
ICEB113/
MCEB113
NONE
NONE
NONE
6
1
3
3
3
16
3
3
3
1
3
1
3
MEMB243
MATB113
EEEB113
NONE
17
Continue
257
Semester
Code
Semester
IV
COEB223
Course
MEHB312
MEMB333
Numerical
Methods
Engineers
Thermodynamics II
Machine Design
MEMB331
MEHB223
MEHB221
COEB442
Total Credit Hours
International
MPU
Compulsory [U4]
Malaysian Studies
Special
***
Semester
2
MASB113
For
Credit
Hours
3
2
3
1
3
1
2
15
3
Prerequisite
MATB143,
MATB253
MEHB213
MEMB243,
MEFB213,
MEMB263
MEMB263,
MEMB113
MEMB123
NONE
MEFB213
Continuation
Corequisite
CSEB113
NONE
NONE
NONE
NONE
MEHB223
NONE
NONE
NONE
3
NONE
NONE
2
MEMB243
NONE
2
MEHB223
NONE
Modeling & Control of
Dynamic Systems
Lab
3
MATB143
NONE
2
2
3
NONE
MEHB323
NONE
MEMB343
3
MEMB333
MEMB333
MATB143,
EEEB113
MEHB223,
MEMB243
MEMB233,
MEMB263
Semester
MEHB323
Total Credit Hours
Heat Transfer
NONE
VI
MEHB321
MEHB213,
MEHB223
MEHB213,
MEHB223
MATB113,
EEEB113,
MEMB333
MEMB322
NONE
NONE
MEMB263,
70 CH
NONE
COEB432
Semester
V
MEHB332
MESB323
COEB422
MEMB322
MESB333
MESB443
MPRB412
***
***
Special
Semester
COEB314
Total Credit Hours
8
15
3
Thermo. Lab
1
3
Project 1
Total Credit Hours
Industrial Training
2
3
3
15
4
Total Credit Hours
4
NONE
NONE
NONE
NONE
NONE
NONE
Continue
258
Semester
Code
Course
Semester
VII
MPRB424
Project II
Credit
Hours
4
MEMB483
***
***
***
Capstone Design
Total Credit Hours
3
3
3
3
16
127
Prerequisite
COEB314,
MPRB412
MEMB322
Thermal Engineering
MEHB403
Power Generation
3
MEHB312,
MEHB332
MEHB413
3
MEHB312,
Conditioning
MEHB223,
MEHB323
MEHB423
Turbomachinery
3
MEHB312,
MEHB332
MEHB433
3
MEHB312,
MEHB332
MEHB443
3
MEHB312,
MEHB332
MEHB453
Industrial
Energy
3
MEHB323
Management
MEHB463
Computational
Fluid
3
MEHB332,
Dynamics
COEB223
MEHB483
3
MEHB323
Optimization
MEHB493
3
MEHB312,
MEHB332
MEHB503
Renewable Energy
3
MEHB213,
COEB442
MEHB513
Introduction
to
Nuclear
3
COEB442
Technology
MEHB523
3
COEB442
Engineering
Continuation
Corequisite
NONE
MESB443
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
Continue
259
Semester
Code
Nuclear Engineering
MENB403
MENB413
MENB423
MENB433
MENB443
MENB453
Applied Mechanics
MEMB403
MEMB413
MEMB423
MEMB453
MEMB463
MEMB473
METB413
Mechatronics
MESB403
MESB413
MESB423
ECEB463
Continuation
Corequisite
Course
Credit
Hours
Prerequisite
Introduction
to
Nuclear
Engineering
Management
Safeguards
3
COEB422
NONE
3
COEB422
NONE
3
COEB422
NONE
3
COEB422
NONE
3
3
COEB422
COEB422
NONE
NONE
Maintenance Eng
Advanced
Mechanics
of
Materials
Advanced Materials
3
NONE
3
3
MEMB333,
MESB323
MEMB333,
MESB323
MEMB333,
COEB223
MEMB333
MEMB333
3
MEMB243
NONE
3
MEMB333,
METB113
NONE
Robot Design
3
MESB323,
MEFB213
MESB323
NONE
NONE
Neural Fuzzy System
3
MEMB333,
MESB323
MESB323
and
3
3
3
3
NONE
NONE
NONE
NONE
NONE
NONE
Continue
260
Semester
Code
Course
MEFB413
Advanced
Manufacturing
Processes
MEFB433
Control
MEFB443
Prerequisite
3
MEMB333,
MEFB213
MEMB333,
MEFB213
MEMB333,
MEFB213
MEMB333,
MEFB213
MEMB331,
MEFB213
NONE
MESB323
NONE
NONE
NONE
NONE
NONE
3
3
MEFB453
3
MEFB473
Computer
Aided
Manufacturing
Process
Control
&
Instrumentation
3
EEIB413
MALB103
MASB113
3
Malay
Language
for
3
Malaysian Studies
3
FRAB113
Basic French
3
NONE
GERB113
Basic German
3
NONE
JAPB113
Japanese Language
3
NONE
MALB203
3
NONE
Student
MANB113
Mandarin Language
3
NONE
PKIB113
Creative Thinking
3
NONE
SPYB113
Introduction
to
Social
3
NONE
Psychology
RELB113
3
NONE
SPRB113
Sports
and
Recreation
3
NONE
HFTB113
Health and Fitness
3
NONE
ISWB113
3
NONE
Continuation
Corequisite
Credit
Hours
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
261
LIST OF INDUSTRIAL ADVISORY
PANELS (IAP)
• Dato’ Nor Azman bin Mufti
Vice President of Energy Ventures,
• En. Anuar bin Yusoff
Managing Director,
TNB Repair and Maintenance Sdn. Bhd.
• Dr. Mohd Hariffin bin Boosrah
General Manager (Generation & Environment),
TNB Research Sdn. Bhd.
• Ir. Dr. Hj. Kamsani bin Abdul Majid
Managing Director,
Unipower Inteligent Sdn Bhd.
• Ir. Dr. Mohd Fairuz bin Ab. Rahman
Asst. Director,
Forensic Engineering Division.
• Ir. Hambali bin Hussein
Managing Director,
NBH Perunding (M) Sdn Bhd.
• Ir. Dr. Zainul Asri bin Mamat
Head of Transmofamation Unit,
Generation Division, Tenaga Nasional Berhad.
• Ir. Mohamed Ali bin Yusoff
Asean Chartered Professional Engineer Registerar.
• En. Syed Putera bin Syed Mokhtar
Managing Director,
Diesel Engineering Sevices Sdn. Bhd.
262
• Ir. Wan Azman bin Wan Salleh
Chief Operating Officer,
UEM Edgenta Berhad / Edgenta PROPEL Berhad.
EXTERNAL EXAMINER
• Professor Ir. Dr. Ahmed bin Jaffar
Professor,
Faculty of Mechanical Engineering, Universiti Teknologi MARA.
• Dato’ Nor Azman bin Mufti
Vice President of Energy Ventures,
Area of specialization/ research interest:
Power generation, power plant repair and maintenance
Office:
Level 33, PJX-HM SHAH Tower, No. 16A, Persiaran Barat, 46050 Petaling Jaya,
Selangor.
Phone: +603 79590498
E-mail: [email protected]
263
• Datuk Zainudin bin Ibrahim
Vice President of Generation,
Generation and Management of Power Plant
Office:
8th Floor, Generation Building, TNB Head Quarters
Phone: +603 2296 5511
• Datuk Dr. Che Ab Rahim bin Haji Nik
Ex-Deputy Secretary General (Environmental)
Ministry of Natural Resources and Environment of Malaysia (NRE)
Environment, Hydrology
• Associate Professor Dr. Samsul Bahri bin Haji Tamrin
Associate Professor
Faculty of Medicine and Health Sciences, Universiti Putra Malaysia
Industrial & Hygiene
Office:
Faculty of Medicine and Health Sciences, Universiti Putra Malaysia
Phone: +603 8947 2395
264
FACULTY MEMBERS
HEAD OF DEPARTMENT
Associate Professor Ir. Dr. Khairul Salleh bin Mohamed Sahari
P. Eng., MIEM, C. Eng. (UK), MIMechE (UK), SMIEEE
Education:
• Ph. D. Engineering (Kanazawa, Japan)
• M. Eng. Mechanical Engineering (Kanazawa, Japan)
• B. Eng. Mechanical Engineering (Waseda, Japan)
Area
of
specialization
/
research
interest:
• Robotics
• Automation
• Control System
• Image Processing
• Sensing
• UAV.
Office:
Phone ext.:
Email:
BN-2-012
2297
[email protected]
265
Dr. Lim Chin Wai
(Head of Unit- Academic)
Education:
• Ph. D. Mechanical Engineering (University of Canterbury, New
Zealand)
• M. Sc. Mechanical Engineering (Purdue, USA)
• B. Sc. Mechanical Engineering. (Purdue, USA)
Area
of
specialization
/
research
interest:
• Kinetic Theory Methods
• Heat Transfer
• Thermo-fluid
• Turbomachinery
Office:
Phone ext.:
Email:
BN-1-012
2293
[email protected]
Hj. Zainuddin bin Yahya
(Head of Unit- External Relations)
Education:
• M. Mech. Eng (UNITEN)
• B. Eng (Hons) Mechanical Engineering (UiTM)
• Dip. Mech. Eng. (ITM)
• Cert. Mech. Eng. (Poli. Ungku Omar)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Materials
• Corrosion
• Manufacturing
BN-3-055
2241
[email protected]
266
Dr. Meenaloshini Satgunam
(Head of Unit- Staff/Student Affairs)
Education:
• Ph. D. Mechanical Engineering (UNITEN)
• M. Sc. Manufacturing Systems Engineering (UPM)
• B. Sc. Manufacturing Engineering (Western Michigan, USA)
Area
of
specialization
/
research
interest:
• Advanced Materials
• Ceramics
• Nanomaterials
• Manufacturing
Office:
Phone ext.:
Email:
BN-3-011
7274
[email protected]
PROFESSORS/ PRINCIPAL LECTURERS
Professor Ir. Dr. Abd Halim bin Shamsuddin
(Director, Centre for Renewable Energy)
FIEM, FEI (UK), P. Eng., C. Eng., FASc
Education:
• Ph. D Combustion (Leeds, UK)
• B. Sc (Hons) Fuel and Energy (Leeds, UK)
Area
of
specialization
/
research
interest:
• Fuel and Energy
• Combustion Processes and Technologies
• Biomass Energy
• Thermal Treatment for Wastes
Office:
Phone ext.:
Email:
BJ-1-016
2217
[email protected]
267
Professor Dr. Abu Bakar bin Musa
Deputy Dean (Academic & Quality Assurance), College of Graduate Studies)
Education:
• Ph. D in Applied Mathematics (Solid Mechanics) (Loughborough
Univ., England)
• M. Sc. in Mathematics (Functional Analysis) (Arkansas State Univ.,
U.S.A)
• Bach. In Mathematics (Univ. Of North Carolina, U.S.A)
Area
of
specialization
/
research
interest:
• Wave Motion and Impact Effect in Viscoelastic Material
• Complex Inversion Integral-Laplace Transforms
• Viscoelastic Modelling
Office:
Phone ext.:
Email:
COGS Deputy DeanŠs Office
7237
[email protected]
Professor Dr. Farrukh Hafiz Nagi
Education:
• Ph. D Engineering (Miami, USA)
• M. Sc. Mech. Eng. (Nottingham, UK)
• B. Eng (Hons) Mech. Eng. (NED Eng. University, Pakistan)
Area
of
specialization
/
research
interest:
• Mechatronics
• Mechanical Vibrations
• Optimization
• Condition Monitoring
Office:
Phone ext.:
Email:
BN-1-006
7202
[email protected]
268
Professor Dr. Hanim binti Salleh
(Head, Quality Advancement Unit)
C. Eng (UK), MIMechE (UK), MMSET
Education:
• Ph. D in Sound and Vibration (Southampton, U.K.)
• M. Sc. Process Engineering (UPM)
• B. Sc. Agric. Eng. (Georgia, USA), E.I.T (Georgia),
Area
of
specialization
/
research
interest:
• Vibration Control
• Structural dynamics
• Energy harvesting
• Control and Instrumentation
Office:
Phone ext.:
Email:
Strategic Planning and Quality Centre Office
7312
[email protected]
Dato’ Professor Ir. Dr. Ibrahim bin Hussein
(Deputy Vice Chancellor (Academic & Research))
FIEM, FIMechE, P. Eng., C. Eng., DSPN, SMS
Education:
• Ph. D. Mechanical Engineering (Liverpool, UK)
• M. Sc. in Power Plant and Energy Related Studies (Liverpool, UK)
• B. Sc. Mechanical Engineering (Magna Cum Laude) (Toledo, USA)
Area
of
specialization
/
research
interest:
• Energy Utilization
• Alternative/Renewable Energy
• Thermal Environment
Office:
Phone ext.:
Email:
Deputy Vice Chancellor (Academic & Research) Office
7120
[email protected]
269
Professor Dr. Md. Mujibur Rahman
Education:
• Ph. D. Mechanical & Materials Engineering (UKM)
• M. Sc. Mechanical & Materials Engineering (UKM)
• B. Eng Petroleum Engineering (Hons) (Islamic Universiti of Riau,
Indonesia)
Area
of
specialization
/
research
interest:
• Computational & Experimental Mechanics
• Powder Metallurgy
• Coupled Deformation
• Heat Transfer
Office:
Phone ext.:
Email:
BN-0-024
7269
[email protected]
Professor Dr. Mohd Zamri bin Yusoff
(Deputy Vice Chancellor (Student Affairs, Alumni & Management))
Education:
• Ph. D. Mechanical Engineering (Birmingham, UK) A.C.G.I. (London,
UK)
• M. Phil. Engineering (Cambridge, UK)
• B. Eng. Mechanical Eng. (1st Class Hons) (Imperial Coll., London,
UK)
Area
of
specialization
/
research
interest:
• Power Plant Analysis and Modeling
• Turbomachinery
• Condensation
• Optimization
Office:
Phone ext.:
Email:
Deputy Vice Chancellor (Student Affairs, Alumni & Management) Office
7600
[email protected]
270
Ir. Mokhtar bin Majid
(Principal Fellow)
P. Eng, MIEM, C. Eng (UK) MEI (UK), MASME, 2nd Grade Steam Engineer (DOSH)
Education:
• M. Sc. Eng. (Sheffield, UK)
• B. Sc. (Mechanical Eng.) (CNAA, Brighton Polytechnic, UK),
Area
of
specialization
/
research
interest:
• Power Generation Projects and O&M Management
• Power Plant Technology
• Fuel Technology & Combustion
• Fuels Supply Contract Management
• CHP and Renewable Energy.
Office:
Phone ext.:
Email:
BN-3-048
6378
[email protected]
Professor Dr. Saifuddin bin Hj. M. Nomanbhay
Education:
• Ph. D. in Biochemistry (University Malaya, Malaysia)
• M. Sc. in Organic Chemistry/Biochemistry (University Malaya,
Malaysia)
• B. Sc. in Organic Chemistry/Biochemistry (University Malaya,
Malaysia)
Area
of
specialization
/
research
interest:
• Enzyme Immobilization
• Enzymatic Synthesis of Polymer
• Carbon Nanotube Synthesis
• Bio-Oil Based Nanofluids (Tribology)
• Analytical Techniques
• Waste Water Treatment
• Heavy Metal Adsorption
• Biodiesel and Bioethanol Production: Processes and Technologies,
Biogas Technologies.
Office:
Phone ext.:
Email:
Blok BJ
7285
[email protected]
271
Professor Dr. T.M. Indra Mahlia
Education:
• Ph. D. Mechanical Engineering (University of Malaya)
• M. Eng. Sc. Mechanical Engineering (University of Malaya)
• B. Eng. Mechanical Engineering (Syiah Kuala University, Indonesia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Energy and Environment
BN-0-021
7221
[email protected]
272
Associate Professor Dr. Abdul Aziz bin Mohamed
FIMM, PEMWJS, FMNS, MIOM3, MAONSA, MAWF
Education:
• Ph. D. in Marine Technology-Advanced Materials (Univ. of Cranfield,
United Kingdom)
• M. Sc. in Nuclear Technology, (Univ. of Surrey, United Kingdom)
• B. Sc. in Physics (Solid State-Nuclear) (Univ. Kebangsaan Malaysia,
Malaysia)
Area
of
specialization
/
research
interest:
• Technology
and
engineering
accelerator/synchrotron
of
nuclear
reactor
and
• neutron science and engineering
• grid/cluster computing
• neural network & fuzzy logic
• image processing and image fusion
• materials structural creep-fatigue and microstructure analysis
• materials for nuclear fission and fusion for electricity, welding and
joining
• non-destructive testing
• high temperature fuel cell
• low temperature co-fired ceramic
• nuclear instrumentation
• mathematical physics
Office:
Phone ext.:
Email:
BN-1-068
7266
[email protected]
Associate Professor Dr. Ewe Lay Sheng
Education:
• Ph. D in Physics (UKM)
• Master in Material Science (UPM)
• B. Sc. in Physics (UPM)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Magnetic field sensor/read head based colossal magnetoresistance
perovskite manganites
BA-3-055
2268
[email protected]
273
Associate Professor Dr. Halina binti Misran
Education:
• Ph. D Materials Engineering (UNITEN)
• M. Eng. Materials (Toyohashi, Japan)
• B. Eng. Materials (Toyohashi, Japan)
Area
of
specialization
/
research
interest:
• Nonsurfactant Synthesis of Mesoporous Materials, MOF Materials,
Hybrid Mesoporous Materials, Hydrogen Storage Materials
• Adsorption of Gases
• Solid Acid Catalysts
Office:
Phone ext.:
Email:
BN-3-068
2231
[email protected]
Associate Professor Ir. Dr. Jawaid I. Inayat-Hussain
(MME Programme Coordinator, College of Graduate Studies)
P. Eng., MIEM, C. Eng. (UK), MIMechE (UK)
Education:
• Ph. D. Rotor Dynamics (Kobe, Japan)
• M. Eng. Vibration & Noise Control (UTM)
• B. Eng. (Hons.) Mechanical (UTM)
Area
of
specialization
/
research
interest:
• Vibration & Noise Control
• Rotor Dynamics
• Condition Monitoring
• Nonlinear Dynamics & Chaos
Office:
Phone ext.:
Email:
BN-3-085
2263
[email protected]
274
Associate Professor Ir. Dr. Kannan M. Munisamy
P. Eng., MIEM, C. Eng. (UK), MIMechE (UK)
Education:
• Ph. D (UNITEN)
• M. Sc (Cranfield, UK)
• B. Mech. Eng. (Hons) (UNITEN)
Area
of
specialization
/
research
interest:
• CFD
• Automotive Brake Disc
• CFD Ventilation
• Fire Simulation
• Green Building Research and Simulation
Office:
Phone ext.:
Email:
on secondment to TCI
7263
[email protected]
Associate Professor Ir. Dr. Khairul Salleh bin Mohamed Sahari
P. Eng., MIEM, C. Eng. (UK), MIMechE (UK), SMIEEE
Education:
• Ph. D. Engineering (Kanazawa, Japan)
• M. Eng. Mechanical Engineering (Kanazawa, Japan)
• B. Eng. Mechanical Engineering (Waseda, Japan)
Area
of
specialization
/
research
interest:
• Robotics
• Automation
• Control System
• Image Processing
• Sensing
• UAV
Office:
Phone ext.:
Email:
BN-2-012
2297
[email protected]
275
Associate Professor Dr. Mohamed Ansari M.Nainar
Education:
• Ph. D in Polymer Engineering (USM)
• M. Eng. in Computer Integrated Manufacturing (Anna, India)
• P.G. Diploma in Plastics Engineering (CIPET, India)
• B. Eng. in Mechanical Engineering (Madras, India)
Area
of
specialization
/
research
interest:
• Polymer Composites
• Nanotechnolgy
• Rapid Prototyping and Tooling
• CNC Machining
• CAD/CAM]
Office:
Phone ext.:
Email:
BN-1-026
2213
[email protected]
Associate Professor Dr. Mohd Azree bin Idris
Education:
• Ph. D (Imperial College, UK)
• B. Sc. Mechanical Engineering (Tenessee, USA)
Area
of
specialization
/
research
interest:
• Computer Aided Engineering
• Heat Transfer
Office:
Phone ext.:
Email:
BC-1-012
1658
[email protected]
276
Associate Professor Dr. Nasri bin A. Hamid
(Deputy Dean (Students Affairs & External Relations), College of Engineering)
Education:
• Ph. D. (Physics) (UKM)
• M. Sc. (Physics) (Arkansas, USA)
• B. Sc. (Physics) (Kansas, USA)
• Dip. Ed. (UTM)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Applied Superconductivity
BN-2-016
7296
[email protected]
Associate Professor Dr. Ng Khai Ching
Education:
• Ph. D. Mechanical Engineering (UNITEN, Malaysia)
• B. Eng.
Mechanical Engineering (1st Class Hons) (UNITEN,
Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Computational Mechanics
BN-3-043
6478
[email protected]
Associate Professor Dr. Shahida Begum
Education:
• Ph. D in Advanced Ceramics (Electro ceramic) (Dublin, Ireland)
• B. Sc. in Chemical Engineering, (1st class) (BUET, Bangladesh)
Area
of
specialization
/
research
interest:
• Spray drying
• advanced ceramics
• ceramic catalytic converter
• waste water management in process industry
• ceramic magnetic materials
• ceramic heat exchanger
• and ceramic sensor
Office:
Phone ext.:
Email:
BN-1-021
2274
[email protected]
277
Tan Kwe Lu [Principal Lecturer]
Education:
• M.A. (Economics) (University of Windsor, Canada)
• B. A (Economics) (University of Windsor, Canada)
• Registered Financial Planner (RFP) (Malaysian Financial Planning
Council)
• Syariah RFP (MFPC)
Area
of
specialization
/
research
interest:
• Microecomonics
• Macoeconomics
• Managerial Economics
• Research Methods
• Business Statistics
• Principles of Management
Office:
Phone ext.:
Email:
Institute of Energy and Policy Research
3366
[email protected]
Wan Zaini bin Zakaria
Education:
• M.A. Economics (Northern Illinois University, USA)
• B. Sc. Computational Mathematics, (Northern Illinois University,
USA)
Area
of
specialization
/
research
interest:
• Microecomonics
• Macoeconomics
• Malaysian Economy
• Technological Innovation
Office:
Phone ext.:
Email:
Institute of Energy and Policy Research
2050
[email protected]
278
SENIOR LECTURERS
Dr. A.K.M. Parvez Iqbal
Education:
• Ph. D in Control & Automation Engineering (UPM)
• M. Sc. In Perceptual Robotics (UPM)
• B.Sc. (Hons) in Mechanical Engineering (Rajshahi University of
Engineering and Technology)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Automation
• Robotics
• Mechanical design
BN-1-034
7232
[email protected]
Dr. Abdul Talip bin Zulkarnain
Education:
• Ph. D Engineering (UNITEN)
• B. Sc. Mechanical Engineering (Osaka, Japan)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Mechanical Vibrations
• Fault Diagnosis
• Vibration Damping
BN-1-007
2238
[email protected]
Dr. Abdoulhdi Amhmad Borhana Omran
Education:
• Ph. D. Mechanical Engineering (UTM, Malaysia)
• M. Sc. Material Engineering (USM, Malaysia)
• B. Sc. Mechanical Engineering (Sebha University, Libya)
Area
of
specialization
/
research
interest:
• Damage and Fracture Mechanics
• Modeling of Sheet Metal under Large Deformation
• Composite Material
• Stress Analysis
Office:
Phone ext.:
Email:
BN-3-033
6303
[email protected]
279
Dr. Abreeza Noorlina binti Abdul Manap
Education:
• Ph.D. in Mechanical Engineering (Tohoku University, Japan)
• M. Eng. Sc Structural Analysis (UNSW, Australia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Surface Engineering
• High Temperature Materials
BN-3-063
7234
[email protected]
Dr. Adlansyah bin Abd Rahman
Education:
• Ph.D. (Cardiff, UK)
• B. Eng. (Mechanical Eng.) (Cardiff, UK)
Area
of
specialization
/
research
interest:
• Biomass
• Slagging and Fouling
• CAD
Office:
Phone ext.:
Email:
Blok BJ
7264
[email protected]
Adzly bin Anuar
Education:
• M. Sc.
Advanced Manufacturing Technology and System
Management (UMIST, UK)
• B. Eng. Mechanical Engineering (UMIST, UK)
Area
of
specialization
/
research
interest:
• Robotics
• Design
• Manufacturing
• CAD/CAM
Office:
Phone ext.:
Email:
BN-1-042
2221
[email protected]
280
Endang Jati binti Mat Sahid
Education:
• Master of Business Administration-International Business (Tsukuba,
Japan)
• B. Eng (Hons) Chemical Process Engineering and Fuel Technology
(Sheffield, UK)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Energy policy
on study leave
-
[email protected]
Eng Kian Hin
Education:
• B. Eng Mechanical Engineering (UPM)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Gas Turbines
BN-1-046
2237
[email protected]
Dr. Fadhilah binti Abd. Razak
Education:
• Ph. D (UNITEN)
• M.Sc. (Mathematics) (Tennesee Tech. University)
• B.Sc. (Mathematics) (Western Illinois University)
• Diploma of Education (Universiti Teknologi Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Analysis load forecasting time series analysis
BA-3-069
7267
[email protected]
281
Dr. Faridah binti Basaruddin
Education:
• Ph. D (UPM)
• M.Sc. (Mathematics) (Ohio University, Athens, USA)
• B.Sc. (Ohio University, Athens, USA)
• Dip. Ed. (Universiti Kebangsaan Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Applied Mathematics
• Mathematical Modelling
BA-3-054
7272
[email protected]
Dr. Firas B. Ismail Alnaimi
Education:
• Ph. D. in Mechanical Engineering (Universiti Teknologi PETRONAS)
• M.Sc. in Industrial Engineering (University of Technology, Iraq)
• B. Eng. (Hons.)
Technology, Iraq)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
in in Industrial Engineering (University of
• Power Plants Condition Monitoring
• Intelligent Systems for Engineering Applications
• Gas Hydrate Formation Conditions/Phases
:BN-0-028
6637
[email protected]
Ir. Hasril bin Hasini
P. Eng, MIEM, MASME, MEI (UK)
Education:
• B. Eng (Mechanical) (Sheffield)
• Dip. (Mechanical/Manufacturing) (Wigan)
Area
of
specialization
/
research
interest:
• Combustion Modelling
• Power Plant Analysis
• Turbomachinery
• CFD
• Renewable energy
Office:
Phone ext.:
Email:
BN-0-008
2280
[email protected]
282
Ir. Dr. Kumaran Palanisamy
P. Eng, MIEM
Education:
• Ph. D (UNITEN)
• B. Sc. Mechanical Engineering (Purdue, USA)
Area
of
specialization
/
research
interest:
• Energy Modelling Policy Analysis
• Biodiesel
• Biomass
• Biogas
• Turbomachinery
• HVAC
• Combustion Wave Rotor CFD Simulation
• Hygrothermal Mass Diffusion Analysis
• Gas Turbines
• Power Generation
• Energy
• Microalgae
Office:
Phone ext.:
Email:
Blok BJ
2296
[email protected]
Dr. Lim Chin Wai
Education:
• Ph. D. Mechanical Engineering (University of Canterbury, New
Zealand)
• B. Sc. Mechanical Engineering. (Purdue, USA)
Area
of
specialization
/
research
interest:
• Kinetic Theory Methods
• Heat Transfer
• Thermo-fluid
• Turbomachinery
Office:
Phone ext.:
Email:
BN-1-021
2293
[email protected]
283
Dr. Malik Idries Adam Ahmed
Education:
• Ph. D. Materials, Magnetic & Superconductors, (Universiti Putra
Malaysia).
• B.Sc. Applied Physics, (University of Khartoum)
Area
of
specialization
/
research
interest:
• Critical State Models
• Electro-active Ceramics: Ferroelectric/multiferroic, Hetrostructure
Interfaces
• Electromagnetic & Electromechanical of bulk, wires, and thin films
oxide systems
• Theory of Hetrostructured interfaces
• Modeling and Simulation
• Thermomechanics of superhard & Abrasive Borocarbides]
Office:
Phone ext.:
Email:
BN-0-007
2250
[email protected]
Dr. Meenaloshini Satgunam
Education:
• Ph. D. Mechanical Engineering (UNITEN)
• M. Sc. Manufacturing Systems Engineering (UPM)
• B. Sc. Manufacturing Engineering (Western Michigan, USA)
Area
of
specialization
/
research
interest:
• Ceramics
• Nanomaterials
• Manufacturing
Office:
Phone ext.:
Email:
BN-3-011
7274
[email protected]
284
Mikhail Fong bin Abdullah @ Fong Kok Kee
Education:
Area
of
specialization
/
research
interest:
• CFD
• Turbomachinery
• Aerospace Propulsion
• Combustion
• Wave Rotor
• Pulse Detonation Engines
Office:
Phone ext.:
Email:
BN-3-078
7283
[email protected]
Mohd Yunus bin Haji Majid
Education:
• M Sc. (Operations Research), Western Michigan University
• B. Sc. (Statistics), Western Michigan University
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Operational research
• Statistics
Teaching & Learning Centre
7560
[email protected]
Dr. Moslem Yousefi
Education:
• Ph. D. Thermo-fluid (UTM)
• M. Sc. (Tarbiat Modares University, Iran)
• B. Mech Eng (Hons) (IUST, Iran)
Area
of
specialization
/
research
interest:
• Optimization in thermal systems
• Evolutionary computation
• Thermal Treatment for Wastes
• Forecasting
• Renewable Energ
• Artificial intelligence
Office:
Phone ext.:
Email:
BN-2-033
6370
[email protected]
285
Nur Mazlini binti Razali
Education:
• M. Mech. Eng. (UNITEN)
• B. Mech. Eng. (UNITEN)
Area
of
specialization
/
research
interest:
• Modelling & Design
• Combustion
Office:
Phone ext.:
Email:
BN-3-013
6369
[email protected]
Dr. Noreliza binti Abu Mansor
Education:
• Ph. D (Industrial Science), Universiti Tenaga Nasional
• M.Sc. (Mathematics), Ohio University, USA
• B.Sc (Physics), Ohio University, USA
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Computational Mathematics
• Higher-Order Finite Difference Algorithms
• Parallel and Distributed Computing
BA-3-070
7268
[email protected]
Norhalena binti Mohd Nor
Education:
• M.Sc. Pure Mathematics (University of Leeds)
• B.Sc. (Hons) (Mathematics) (University of Tasmania)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Computational Mathematics
BA-3-059
7238
[email protected]
286
Dr. Omar Suliman Zaroog
SES (Sudan)
Education:
• Ph. D in Mechanical Engineering (UPM)
• M. Sc. Manufacturing Engineering System (UPM)
• B. Sc. Mechanical Engineering. (Khartoum, Sudan)
Area
of
specialization
/
research
interest:
• Fatigue and Fracture of metallic materials
• Failure assessment
• Advanced Manufacturing Technology
• Optimization
Office:
Phone ext.:
Email:
BN-3-054
2277
[email protected]
Dr. Pua Fei Ling @ Grace Pua
Education:
• Ph. D. Materials Science (UKM)
• B. Sc. Materials Science. (UKM)
Area
of
specialization
/
research
interest:
• Materials Science
• Natural Resources / Biomass Conversion
• Catalyst
• Bio-diesel
• Bio-composites
Office:
Phone ext.:
Email:
BN-3-012
2262
[email protected]
Rusnita binti Alimun
Education:
• Bachelor in Corporate Admin (UiTM, Malaysia.
• EMBA (UiTM, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Startegic Management
BA-2-040
7246
[email protected]
287
Dr. Saiful Hasmady bin Abu Hassan
Education:
• Ph. D. Engineering (Tokyo Institute of Technology, Japan)
• M. Eng. (Tokyo Institute of Technology, Japan)
Area
of
specialization
/
research
interest:
• Hydrogen Energy Systems
• Proton Exchange Membrane Fuel Cells
• Heat and Mass Transfer
Office:
Phone ext.:
Email:
BN-1-059
7576
[email protected]
Tan Ee Sann
Education:
Area
of
specialization
/
research
interest:
• Biodiesel
• Combustion
• Liquid Fuel Atomization
Office:
Phone ext.:
Email:
on study leave
-
[email protected]
Dr. Theresa Yeo Wee Sing
Education:
• Ph. D. in Mechanical Engineering (UM)
• M. Sc. in Materials Engineering (Strathclyde, UK)
• Dip.Tech. Materials Engineering (TARC)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Composite materials
• Finite Element Analysis (F.E.A)
BN-0-022
7278
[email protected]
288
Dr. Weria Khaksar
Education:
• Ph. D. in Industrial Engineering (Univ. Putra Malaysia)
• M.Sc. in Management (Islamic Azad Univ., Sanandaj Branch, Iran)
• B. Eng. (Hons.)
Sanandaj, Iran)
Area
of
specialization
/
research
interest:
in Industrial Engineering (Kurdistan Univ.,
• Robotic Motion Planning
• Artificial Intelligent
• Optimization
• Industrial Engineering
Office:
Phone ext.:
Email:
BN-3-008
2288
[email protected]
Dr. Woon Hai Song
Education:
• Ph.D. (Material Science, Magnetic Material) (UPM)
• M.Sc. (Optics) (UPM)
• B.Sc. (Hons) (Physics) (UPM)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Material Science
• Permanent Magnet
BA-03-058
7320
[email protected]
Yip Chan Heng
Education:
• B. Sc. Mech. Engineering, (IUPUI, USA)
Area
of
specialization
/
research
interest:
• Energy from Waste
• Landfill Gas
• Biogas
Office:
Phone ext.:
Email:
BN-3-038
2251
[email protected]
289
Zainudin bin Yahya
Education:
• B. Eng (Hons) Mechanical Engineering UiTM
• Dip. Mech. Eng. I.T.M
• Cert. Mech. Eng. (PUO)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Materials
• Corrosion
• Manufacturing
BN-3-055
2241
[email protected]
Zarina binti Abdul Rahman
Education:
• M.Sc. (Mathematics) (West Virginia University)
• B.A. (Mathematics) (State University of New York)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Mathematical Modelling
BN-1-039
7259
[email protected]
Dr. Zolman bin Hari
Education:
• Ph.D. (Material Sciences) (UPM)
• M.Sc. (Material Sciences) (UPM)
• B.Sc. (Hons) (Physics) (UKM)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• MMaterial Science (Soft Ferrite)
BA-3-053
7242
[email protected]
290
Zubaidi Faiesal bin Mohamad Rafaai
Education:
• M.Sc Quality & Productivity Improvement (UKM, Malaysia)
• B.Sc Mechanical & Aerospace Engineering (Seoul National
University, Korea)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Manufacturing Quality
BN-0-030
6331
[email protected]
Zulkifli bin Ahmad
Education:
• B.Sc. Mechanical Engineering (IUPUI Indianapolis, USA)
• Dip. Mech (UTM)
• Cert Mechanical Eng.(PUO)
Area
of
specialization
/
research
interest:
• CFD
• CAD/CAE
• Thermofluid
• Turbomachinery
Office:
Phone ext.:
Email:
UCC-BE4 (First Floor Administration Block)
2232
[email protected]
291
LECTURERS
Anas bin Muhamad Pauzi
Education:
• M.Sc. in Nuclear Science and Technology (Manchester, UK)
• M. Eng. Mechanical Engineering (Manchester, UK)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Nuclear Engineering
• Nuclear Safety
• Computational Neutronic Simulation
BN-3-022
. 6474
[email protected]
Azieyanti Nurain binti Azmin
Education:
• M.Sc. Materials Engineering (UniMAP)
• B.Eng (Hons) Materials Engineering (UniMAP)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Materials engineering composites polymer engineering
BN-3-073
6461
[email protected]
Azrul Abidin bin Zakaria
Education:
• Master of Mechanical Engineering, Universiti Tenaga Nasional
• Degree of Mechanical Engineering, Universiti Tenaga Nasional
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Rotordynamics
• Vibrations
• Applied Mechanics
on study leave
-
[email protected]
292
Ban Kean Nam
Education:
Area
of
specialization
/
research
interest:
• Thermofluid
• Turbomachinery
• Power Plant Engineering
Office:
Phone ext.:
Email:
BN-3-029
7217
[email protected]
Betty Voon Wan Niu
Education:
• M.Sc. (Mathematics) (Universiti Kebangsaan Malaysia)
• B.Sc. (Hons) (Mathematics) (Universiti Kebangsaan Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Applied Mathematics
BA-3-036
2236
[email protected]
Chua Yaw Long
C. Eng. (UK), MIMechE (UK)
Education:
• M.Sc in Engineering in Control Systems (University of Sheffield, UK)
• B.Eng (Hons) in Aerospace (University Putra Malaysia)
Area
of
specialization
/
research
interest:
• Automatic Control Systems
• Robotics
• UAVs
Office:
Phone ext.:
Email:
BN-0-023
2279
[email protected]
293
Farah Elida binti Selamat
Education:
• M.Sc Industrial & Technology Management (UKM)
• B.Eng Mechanical Systems Engineering (Muroran, Japan)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Acoustics Engineering
• Quality Control/Management System
BN-3-076
6300
[email protected]
Fevilia Nurnadia binti Adria Syaifoel
Education:
• M. Sc. in Manufacturing Engineering (UTeM)
• B. Eng. Manufacturing Engineering (UTeM)
Area
of
specialization
/
research
interest:
• Product and Service Development
• Quality & Reliability
• Operation Management
• Lean Manufacturing
• Strategic Management
Office:
Phone ext.:
Email:
BN-3-073
6461
[email protected]
Gopinathan Muthaiyah
Education:
• M. Eng. Mechanical Engineering (UNITEN)
• B. Eng. Mechanical Engineering (UNITEN)
Area
of
specialization
/
research
interest:
• Biodiesel Production Technology
• Biofuels Combustion & Atomization
• Biofuel Performance Assessment in Microgasturbine & Internal
Combustion Engine
• Performance Assessment of Biogas & Biomass Power Plant for (Fit)
Scheme
Office:
Phone ext.:
Email:
BN-0-030
6464
[email protected]
294
Iszmir Nazmi bin Ismail
Education:
• B. Eng. Mechanical Engineering (UNITEN)
Area
of
specialization
/
research
interest:
• Engineering Design
• Robotics
• Automation
• Production & Quality Control
• Non-Destructive Testing
Office:
Phone ext.:
Email:
BN-3-34
6305
[email protected]
Juniza binti Md Saad
Education:
• PM. Eng. in Mechanical Engineering (UKM)
• M. Eng in Mechatronics Engineering (Lancaster, U.K)
• Diploma in Electrical-Mechatronics Engineering (UTM)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• CAD
• Robotics
• Control & Instrumentation
On study leave
-
[email protected]
Madihah binti Mujaini
Education:
• M. Sc. in Nuclear Technology (Nuclear Security and Safeguards)
(Chulalongkorn University, Thailand)
• B. Sc. in Physics (UiTM)
• Diploma in Science (UiTM)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Nuclear Security and Safeguards
-
[email protected]
295
Mohd Eqwan bin Mohd Roslan
Education:
• M. Sc. Renewable Energy and Clean Technology (University of
Manchester)
• B. Eng. Mechatronics (International Islamic University Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Green Building
• Zero Energy Building
• Solar PV
BN-3-087
6228
[email protected]
Mohd Firdaus bin Jaafar
Education:
• B. Eng. Mechanical Engineering (Monash University)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
BN-3-033
6367
[email protected]
Mohd Rashdan bin Isa
Education:
• M. Eng. Manufacturing Systems Engineering (UPM, Malaysia)
• Dipl-Ing Mechanical Engineering (Mannheim, Germany)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Product Design and Development
BN-0-033
6465
[email protected]
296
Mohd Syukri bin Yahya
Education:
• M. Sc. Mechanical Engineering (Minnesota, USA)
• B. Eng. Mechanical Eng. (Summa cum Laude) (Minnesota, USA)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Mechatronics in bio- and thermal applications
on study leave
-
[email protected]
Muhamad Ibrahim bin Mahmod
Education:
• M. Eng. in Mech. Eng. (UKM)
• B. Mech. Eng. (UCL, UK)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Combustion
BN-3-039
6477
[email protected]
Muhammad Fairuz bin Abdul Jalal
Education:
• M. Sc. in Mechatronics (Ravensburg-Weingarten, Germany)
• Dipl.-Ing.
Germany)
Area
of
specialization
/
research
interest:
(FH) Mechanical Eng.
(Ravensburg-Weingarten,
• Robotics
• UAV
• UUV
• Automation
• Control system & Design
Office:
Phone ext.:
Email:
BN-3-070
7282
[email protected]
297
Nolia binti Harudin
Education:
• M.Eng Ind. Engineering (UTM)
• B.Eng Mechanical Engineering ŰIndustry (UTM)
• Diploma in Mechanical Engineering (UTM)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Industrial Engineering / Industrial engineering, energy
BN-3-045
2239
[email protected]
Norbaini binti Abdul
Education:
• M. Economics (International Islamic University, Malaysia)
• B. Economics (International Islamic University, Malaysia)
Area
of
specialization
/
research
interest:
• Principles of Management
• Microecomonics
• Macoeconomics
• Malaysian Economy
• Islamic Economics
• Business Mathematics,
• Business Statistics
Office:
Phone ext.:
Email:
BA-3-050
7353
[email protected]
298
Norhazwani binti Abd Malek
Education:
Area
of
specialization
/
research
interest:
• Condensation
• Nuclear
Office:
Phone ext.:
Email:
BN-1-044
6213
[email protected]
Nurainaa binti Kabilmiharbi
Education:
• M. Sc. Industrial & Technology Management (UKM, Malaysia)
• B. Eng. Mechanical Ű Automotive Engineering (IIUM, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Ergonomics
• Human Factor
• Ergonomics Design
BN-3-073
6462
[email protected]
Nur Irmawati binti Om
Education:
• MM. Mech. Eng. (UNITEN)
Area
of
specialization
/
research
interest:
• Computational fluid dynamics
• heat transfer
• nanofluids
Office:
Phone ext.:
Email:
BN-1-022
7295
[email protected]
299
Nuraslinda binti Anuar
Education:
• MM. Sc. in Nuclear Power Plant Engineering (KINGS, South Korea)
• B. Eng. in Engineering Physics (McMaster, Canada)
Area
of
specialization
/
research
interest:
• Human-System Interaction
• Human Reliability Analysis
• Probabilistic Safety Assessment
• Nuclear Fuel Cycle
• Nuclear Waste Management
• Nuclear Waste Transmutation
Office:
Phone ext.:
Email:
BN-3-066
6256
[email protected]
Ng Yee Luon
Education:
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Grid Generating
on study leave
-
[email protected]
Prem Gunnasegaran
Education:
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Heat Transfer
• Fluid Flow
BN-1-052
2230
[email protected]
300
Rogemah binti Ramli
Education:
• MSc Industrial Science (UNITEN)
• B. Eng. Metallurgical Engineering (UniMAP, Perlis)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Anodic and cathodic protection
• magnetic material
BN-3-028
6480
[email protected]
Roslina binti Mokhtar
Education:
• M.Sc. (Microwave Physics), UPM
• B.Sc. (Physics), UKM
Area
of
specialization
/
research
interest:
• Photonics
• Fiber Optics
• Fiber Optic Sensor
• Sensor Networks
Office:
Phone ext.:
Email:
BA-3-068
2281
[email protected]
Sami Salama Hussen Hajjaj
Education:
• M.Sc. Mechanical Engineering (Hons), (IIUM, Malaysia)
• B.Sc. Mechanical Engineering, (IIUM, Malaysia)
Area
of
specialization
/
research
interest:
• Robotics
• Mechanics
• Machine Design
• Manufacturing Technology
Office:
Phone ext.:
Email:
BN-03-053
6402
[email protected]
301
Siti Sarah Ain binti Fadhil
Education:
• Master in Mechanical Engineering (UNITEN, Malaysia)
• Bachelor (Hons.) of Mechanical Engineering (UNITEN, Malaysia)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Computational Fluid Dynamic
BN-1-064
2242
[email protected]
Siti Zubaidah binti Othman
Education:
• B. Sc. Material Science (UKM)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Ceramics
BN-3-086
6245
[email protected]
Vignesh Vicki Wanatasanappan
Education:
• B. Eng. Mechanical Engineering (Hons) (UNITEN)
Area
of
specialization
/
research
interest:
• Composite materials
• Polymers
• Biomaterials for tissue engineering application
• Rapid prototyping
Office:
Phone ext.:
Email:
BN-0-030
6330
[email protected]
302
Zaimah binti Hasan
Education:
• M. Sc. in Manufacturing Systems Engineering (UPM)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Manufacturing
BN-3-060
2225
[email protected]
ASSISTANT LECTURERS/ TUTORS
Ahmad Kamal bin Kadir
Education:
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• FEM, Metal Injection Molding
BN-3-021
6484/5006
[email protected]
Hassan Bin Mohamed
Education:
• M. Sc. (Mech. Eng.) and Graduate Certificate in Nuclear Eng.
(University of Pittsburgh, USA)
• B. Sc. (Mech. Eng.) (Massachusetts Institute of Technology, USA)
Area
of
specialization
/
research
interest:
• Thermodynamics
• Nuclear Tech./Eng.
• Reactor Physics
• Finite Element
• Gravity and Magnetism
Office:
Phone ext.:
Email:
BN-3-033
6226
[email protected]
303
Leon Chan Zen Hsien
Education:
• B. E. (Mech. Eng.) (1st Class Hons) (University of Melbourne)
Area
of
specialization
/
research
interest:
Office:
Phone ext.:
Email:
• Fluid Dynamics
• CFD
BN-3-023
-
[email protected]
304
COURSE DESCRIPTIONS
• MEFB211 MANUFACTURING PROCESSES LABORATORY
Pre-requisite : METB113
Laboratory experiments on different types of machines, lathe, milling, shaping,
drilling; welding techniques: gas and arc welding. Introduction to Occupational
safety and health act (OSHA).
• MEFB213 MANUFACTURING PROCESSES
Pre-requisite : MEFB121
Survey of manufacturing processes, including production, casting, forming,
machining, jointing. Also includes topics on metrology, safety, quality assurance
and testing.
• MEFB413 ADVANCED MANUFACTURING PROCESSES
Pre-requisite : MEMB333, MEFB213
To cater to the student’s needs pertaining to knowledge of various facets of
advancements in manufacturing processes, equipment, and systems over and
above what they learnt in the Manufacturing Processes course. In addition they
would also obtain a preliminary knowledge of the rapid prototyping and
competitive aspects of manufacturing.
• MEFB423 ERGONOMICS
To cater to the student’s needs pertaining to knowledge of the tools and
techniques of Ergonomics / Human Factors Engineering. This course would
help the students in learning the basic Ergonomics tools so as to be applied to
manufacturing as well as non-manufacturing sectors of the national and global
environments. The tools and techniques learnt would enable the students to
know how to achieve the goal of designing a user-friendly machine or
work-environment
• MEFB433 PRODUCTION PLANNING AND CONTROL
Managing Operations, Designing the systems, Organizing the systems,
Scheduling the production systems for competitive manufacturing.
305
• MEFB443 INDUSTRIAL ENGINEERING
After tracing the historical developments in the field of industrial engineering,
the related and emerging allied areas would be introduced. Subsequently,
topics, related to the design of the systems, like Methods Engineering, Work
Measurement, Ergonomics, Facilities Planning & Design etc would be covered.
Thereafter, the Control aspects of the system like Inventory Control, Production
control, Quality control etc. would be introduced. Finally, the Productivity, its
concepts and the related Quantitative tools of Operations Research would be
covered.
• MEFB453 TOTAL QUALITY MANAGEMENT
To cater to the student’s needs pertaining to knowledge of the tools and
techniques of Total Quality Management. This course would help the students
in learning the basic tools of quality enhancement in manufacturing as well as
non-manufacturing sectors of the industrial national and global environments.
The tools and techniques learnt would enable the students to know how to
achieve the goal of the world-class manufacturing/ services under the banner of
the global competitiveness.
• MEFB473 COMPUTER AIDED MANUFACTURING
This course introduces computer aided manufacturing as the technology
concerned with the use of computer systems to plan, manage, and control
manufacturing operations through either direct or indirect computer interface
with the plant’s production resources. One of the most mature areas of CAM is
numerical control (NC) for machine tools. CAM is also concerned with other
activities such as robots programming, process planning, fixturing, rapid
prototyping, tooling, group technology and computer integrated manufacturing
(CIM). CIM is concerned with using the computer database as a way to run an
entire enterprise more efficiently.
• MEHB213 THERMODYNAMICS 1
First and second laws, closed system and control volume analysis, entropy,
reversible and irreversible processes, properties of pure substances.
Applications to engineering problems: vapor power cycle, gas power cycle,
refrigeration & heat pump systems.
• MEHB221 THERMO-FLUIDS LABORATORY
Co-requisite : MEHB223
Laboratory experiments on characteristics of flow measuring devices, pipe losses,
valves, viscometer, hydrostatics, jet reaction, transitional flow, water turbine and
wind tunnel.
306
• MEHB312 THERMODYNAMICS 2
Application of thermodynamics principles which include thermodynamics of gas
mixtures, exergy analysis, gas power cycles, psychometrics and air conditioning,
reacting mixtures and combustion
• MEHB332 MECHANICS OF FLUIDS 2
Pre-requisite : MEHB223
This course is continuation of Mechanics of Fluids I. It covers Dimensional
analysis and modeling, flow measurements, compressible flow, external flows,
aerodynamics and turbomachinery
• MEHB321 HEAT TRANSFER AND APPLIED THERMODYNAMICS
LABORATORY
Co-requisite : MEHB323
Laboratory experiments on heat transfer including conduction, convection,
radiation, pool boiling and heat exchanger and applied thermodynamics
including refrigeration, gas turbine and steam cycles. An introduction to heat
and mass transfer with emphasis on basic principles used in the energy sciences
and their application in man-made systems.
Steady-state and transient
conduction, including numerical solutions. Forced and natural convective-heat
and mass transfer. Heat exchangers. Radiative heat transfer and solar energy.
Multi-mode problems. Application to engineering situations.
• MEHB403 POWER GENERATION
Pre-requisite : MEHB312, MEHB332
In this course, students will be introduced to the overall operation, maintenance
and economics of power plants. The focus will be on steam turbine, gas turbine
and hydro power plants. Students will also be exposed to future trends and
advances in the power generation technology
• MEHB413 HEATING VENTILATING AND AIR CONDITIONING
Pre-requisite : MEHB312, MEHB223, MEHB323
Analysis and design practice for heating, ventilation and air conditioning
(HVAC) systems. Psychometrics, air quality, space heating and cooling and
moisture control in buildings. Applications of HVAC systems and selection of
HVAC components.
• MEHB423 TURBOMACHINERY
Basic principles of turbomachines. Applications of these principles which are
mainly the fluid mechanics equations (continuity, momentum and energy) to
turbomachine specific devices.
Performance and design parameters.
Aerodynamics of blade geometry. Analysis and design of turbomachines.
307
• MEHB433 COMBUSTION ENGINEERING
An introduction to combustion processes with emphasis on fundamental fluid
dynamics, heat and mass transport and reaction kinetics processes that govern
combustion rates. Combustion theories and combustion technology for gaseous,
liquid and solid fuels.
• MEHB443 ENVIRONMENTAL ENGINEERING
This course brings together and integrates the three principal areas of
environmental engineering water, air, and solid waste management.
It
introduces a unique approach by emphasizing the relationship between the
principles observed in natural purification processes and those employed in
engineered systems.
• MEHB453 INDUSTRIAL ENERGY MANAGEMENT
Introduction, economic analysis, electrical energy conservation, energy
conservation in combustion systems, energy conservation in steam and
condensate systems, heat recovery, industrial insulation, industrial
co-generation.
• MEHB463 COMPUTATIONAL FLUID DYNAMICS
Pre-requisite : MEHB332, COEB223
Elementary aspects of Computational Fluid Dynamics (CFD); Review of
numerical analysis and fluid mechanics as pertinent to CFD; numerical solution
of selected fluid dynamics problem.
Use and applications of available
commercial CFD software to a selected fluid dynamics problems.
• MEHB483 THERMAL SYSTEM DESIGN AND OPTIMIZATION
To introduce students to the design of thermal systems with emphasis on
engineering economics, system simulations and optimization technique.
Applications include power generation and process industries.
• MEHB493 INTERNAL COMBUSTION ENGINES
Air standard cycles. Spark ignition and compression ignition, engine combustion
phenomena , Air pollutants are undesirable byproducts of combustion, Air to fuel
ratio, engine test, latest technology on alternative fuels and renewable energy for
IC engines
• MEMB113 ENGINEERING GRAPHICS AND COMPUTER APPLICATION IN
ENGINEERING (CAE)
Introduction to engineering graphics: conventional practices and standards,
orthographic and isometric projections, detail and assembly drawings,
308
dimensioning and notations, sectional views, fasteners, limits and tolerances,
assembly and components drawings using AutoCad.
Introduction to
three-dimensional design methods using Pro/Engineer.
Introduction to
engineering calculation and mathematical software package MatLab.
• MEMB123 MECHANICS I : STATICS
Fundamental concepts of mechanics, force systems and couples, free body
diagrams, and equilibrium of particles and rigid bodies. Distributed forces;
centroids and centre of gravity of lines, areas, and volumes. Second moment of
area, volumes, and masses. Principle axes and principle moment of inertia.
Friction and the laws of dry friction. Introduction to kinematics of particles.
Application to structures and machine elements, such as bars, beams, trusses
and friction devices.
• MEMB221 MECHANICS AND MATERIALS LABORATORY
Pre-requisite : METB113
Co-requisite : MEMB243
Experiments involving tension test, verification of stress-strain diagram, ultimate
strength, torsion tests, determination of modulus of shear, displacement tests on
beams with various supports, statically indeterminate beams, determination of
modulus of elasticity of beams, material sample preparations, heat treatment,
cold rolling and observation of material structures etc.
• MEMB233 MECHANICS II : DYNAMICS
Fundamental concepts of kinematics: translation and rotation. Kinetics, impulse,
momentum, work and energy. Rectilinear and curvilinear translation of point
masses. Plane motion of rigid bodies and vibration. Application to projectiles,
gyroscopes, machine elements, and other engineering systems.
• MEMB243 MECHANICS OF MATERIALS
Pre-requisite : MEMB123, MATB113
Concepts of stress, strain; equations of equilibrium and compatibility;
mechanical properties; stress strain laws; extension; torsion; and bending of
bars; beam theory; combined stresses; columns and selected topics.
• MEMB 263 THEORY OF MACHINES
Pre-requisite: MEMB233
This course provides the scientific basis for of the design of machines based on
kinematic and dynamic requirements. Introduction to basic concepts, mobility,
synthesis and machine elements such as linkages, cams, gears and engines.
Dynamic analysis is presented as a basis for the dynamic balancing of rotating
machinery and the dynamics of reciprocating engines.
309
• MEMB331 MACHINE DESIGN AND COMPUTER AIDED DESIGN (CAD)
LABORATORY
Pre-requisite: MEMB263, MEMB113
Co-requisite : None
Laboratory experiments on machine elements and design of machine
components using computer aided design software
• MEMB322 MECHANICAL DESIGN PROCESS
Pre-requisite : MEMB333, MESB323
Co-requisite: MEHB323
This course consists of teaching the design methodology in real industrial design
problems which are open ended problems. The focus of the course is how to
design, not just experience trying to design. The students will be taught the
theories and techniques of design. Case studies will be used to relate theories to
applications. The lecture information in short, is designed to help the students
design and evaluate their designs.
• MEMB333 MACHINE DESIGN
Pre-requisite : MEMB243, MEFB213, MEMB263
This course will introduce students to the fundamentals of machine design and
standard methods of machine components design. Students will learn on the
introduction to machine design, static failure theories, fatigue failure theories,
and how to design several very important machine components such as shafts,
keys, couplings, bearings, gears, springs, screws, fasteners, clutches, and brakes.
• MEMB403 CONDITION MONITORING & MAINTENANCE ENG
Condition monitoring and maintenance management is a holistic
multidiscipline based on systems thinking.
It encompasses economics,
instrumentation, engineering and scientific disciplines, information technology,
and management, prediction of faults/failure and their diagnostics. In the
proposed elective course the topics are covered to give a brief but sufficient
insight to the contents of condition monitoring and related management
techniques.
• MEMB413 ENGINEERING MECHANICS-SIMULATION
In this course MATLAB/SIMULINK & SimMechanics simulation tools would be
taught to simulate translational and rotational motion in three dimensions. The
simulation techniques provides suitable tools to specify bodies and their mass
properties, their possible motions, kinematics constraints, coordinate systems,
and the means of initiating and measuring motions. Simulation tools represent
a mechanical system by a connected block diagram, like other Simulink models,
and can encompass hierarchical subsystems.
Further, the simulation’
visualization tools display and animate simplified representations of 3-D
machines, before and during simulation, in these environments.
310
• MEMB423 FINITE ELEMENT METHOD
Pre-requisite : MEMB333, COEB223
Introduction of finite element methods in stress analysis and heat transfer
areas; use of existing hardware and software. Applications of interactive
computer graphics and geometric ddressin techniques.
• MEMB343 MECHANICAL VIBRATIONS
Pre-requisite : MEMB233, MEMB263
This course covers the main aspects of mechanical vibration and includes
elements of vibration systems, free and forced vibration of single and
multi-degree-of-freedom systems, transient and steady-state vibrations,
vibration of continuous systems such as beams, condition monitoring using
vibration measurements, exposure to mathematical tools such as Matlab
application software package, Familiarisation with instruments such as FFT
analysers.
• MEMB453 NON-DESTRUCTIVE TESTING
Introduction to NDT methods; Penetrant Testing, Magnetic Particle Inspection,
Radiography, Ultrasonic testing and imaging, Eddy Current Testing, Acoustic
Emission Technology Special NDT methods like thermography, microwave
analysis, leak testing etc.
• MEMB463 FAILURE ANALYSIS AND DESIGN
Failure modes, identification and classification. Combined stresses and yielding.
Static loading-reliability approach. Fatigue and fracture-basic concepts; high
cycle fatigue- multi axial loading-LEFM. Creep-corrosion and wear basic
concepts and design approach. Systematic approach to failure analysis Ű case
studies
• MEMB473 ADVANCED MECHANICS OF MATERIALS
Pre-requisite :MEMB243
The subject coverage include a review of basic mechanics concepts for axial
loading, bending, and twisting, torsional loading, flexural loading, continuous
beams, rotating disc and circular plates, thick cylindrical and spherical shells,
energy methods and columns
• MEMB 483 CAPSTONE DESIGN
Pre-requisite :MEMB322
Co-requisite: MESB443
In principle, this capstone course plans to connect senior mechanical engineering
students with organizations and businesses in the community that are looking
for practical solutions to design problems. Potential projects are suggested by
industry partners or faculty members, who benefit from having the students work
on their project at no cost to them.
311
• MESB323 MODELING AND CONTROL OF DYNAMIC SYSTEM
Pre-requisite : MATB143
This course introduces students to the various dynamic systems such as
mechanical, electrical, electromechanical and control systems, that are used in
synthesizing most modern engineering systems. In this course the students
learn the basic laws and techniques necessary to derive mathematical models of
above mentioned dynamic systems, the interaction and the interfacing of the
various sub-systems that compose the complete system mathematically so that
analysis can be carried out using the derived mathematical models.
• MESB333 ENGINEERING MEASUREMENTS & LABORATORY
Pre-requisite : MATB143, EEEB113, MEHB223, MEMB243
Co-requisite: None
Basic elements of general measurements systems and their response with
emphasis on system characteristics, treatment of experimental data, error
analysis, sensors and signal conditioning. Application of measurement devices
to mechanical engineering systems. Laboratory work includes measurement of
engineering parameters: dimension, pressure, temperature, force, stress and
strain, flow and speed.
• MESB403 AUTOMATION AND ROBOTICS
Pre-requisite : MESB323, MEFB213
This course will introduce students to the automation of manufacturing systems
and introduction to robotics. Students will learn on the introduction to
automation and robotics, automation components, parts handling in automatic
production systems, numerical control and CAD/CAM, types of industrial robots
and their applications, machine vision systems and their applications in
manufacturing
processes,
planning
for
robotics
projects
implementation,applications of PLCs for controlling of manufacturing processes,
on-line computer control, application of microprocessors in machine/equipment
control, CIM, and ethics in manufacturing automation systems.
• MESB413 ELEMENTS OF MECHATRONICS
Pre-requisite : MESB323
Co-requisite: None
The Mechatronic degree incorporates subjects selected from the electrical,
computer and mechanical engineering fields designed to provide graduates
with the unique skills required to tackle problems than span the full
electro-mechanical spectrum. A feature of the course is the strong emphasis on
the project work that allows students to consolidate their learning and develop
planning and communication skills that are considered an integral part of the
engineering profession.
312
• MESB423 ROBOT DESIGN
An introduction to the field of robot design. Student develop an understanding
of how robots are designed and work, and how they are controlled, through
lecture, laboratory and practical exercises. A study on forward and inverse
kinematics, as well as a detailed study on robot programming will be included.
Current and emerging robot applications are studied in the areas of industrial,
manufacturing, exploration, search and recovery/rescue, farming, military
applications, hazardous materials handling, logistics, surveillance and security,
etc.
• MESB443 ELECTRO-MECHANICAL SYSTEMS
Pre-requisite : MATB113, EEEB113, MEMB333
Understanding interfacing of mechanical systems using electro-mechanical
components; conceptual design and analysis of high performance computer
controlled mechanical systems; prototyping of mechatronic systems.
• METB113 ENGINEERING MATERIALS
Introduction to structures and properties of metals, ceramics, polymers, and
composites. Characteristics and processing affecting behavior of materials.
• METB413 ADVANCED MATERIALS
Pre-requisite : MEMB333, METB113
Introduction to special steels _HSLA steels, Low alloy steels, Properties and
behavior, and developments in high temperature alloys. Composite Materials ŰMMC, PMC and CMC. Principles of Selection of Materials and shape,
Introduction to Smart materials and their underlying principles, and
nanotechnology and molecular manufacturing.
• MPRB412 PROJECT 1
Students select a project either proposed by faculty members or by the student
and works under the supervision of faculty members. Problems from all areas
of mechanical engineering are considered. The studies for projects may involve
design, construction, assemblies, measurements, analysis and simulation
• MPRB424 PROJECT II
Pre-requisite : COEB314, MPRB412
This is a continuation of Project I. Students select a project either proposed by
faculty members or by the student and works under the supervision of faculty
members. Problems from all areas of mechanical engineering are considered.
The studies for projects may involve design, construction, assemblies,
measurements, analysis and simulation.
313
calculus.
equations.
314
315

Student Handbook - College of Engineering

Transcription

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