Newport

Transcription

Newport

2014 IEEE Radio
& Wireless Week
FINAL PROGRAM
Newport Beach Marriott Hotel & Spa
Newport Beach, California, USA
19–22 January, 2014
RWW
2014
Newport
beach
california
RWW & RWS
General Chair:
Takao Inoue,
National Instruments
General Co-Chair:
Karl Varian, Raytheon
RWW & RWS
Technical Program
Co-Chairs:
Sergio Pacheco,
Freescale
Telesphor Kamgaing,
Intel
WiSNet
Conference Co-Chairs:
Rahul Khanna, Intel
Alexander Koelpin,
University of
Erlangen-Nuremberg
BioWireleSS
Dietmar Kissinger,
University of
Erlangen-Nuremberg
Mohamed Mahfouz,
University of Tennessee
SiRF
Conference Chair:
Donald Lie,
Texas Tech University
SiRF Technical
Program Co-Chairs:
Chien-Nan Kuo,
National Chiao Tung
University
Julio Costa,
RFMD
RWS, PAWR, WiSNet,
BioWireleSS
Publications Chairs:
Wasif Tanveer Khan,
Spyridon Pavlidis,
Aida L. Vera Lopez
Georgia Institute of
Technology
SiRF
Publication Chair:
Xun Gong, University of
Central Florida
PAWR
Almudena Suarez
Rodriguez, University of
Cantabria
Fred Schindler, RFMD
2014 Radio & Wireless Week Sponsors:
IEEE Microwave Theory and Techniques Society (MTT-S)
IEEE Engineering in Medicine & Biology Society (EMBS)
http://www.radiowirelessweek.org
General Chair’s Invitation to the
IEEE Radio and Wireless Week
I have the great honor and pleasure to invite you
to the 2014 IEEE Radio Wireless Week (RWW).
This will be the eighth RWW and we return to the
southern California area for the second time since
2007.
RWW2014 will be held at the Newport Beach
Marriott Hotel & Spa, Newport Beach, California,
19 – 22 January, 2014. The venue is located at the
south end of greater Los Angeles area just minutes away from a beautiful harbor and southern
California shoreline. With many wireless semiconductor companies, aerospace and defense industry, as well as world class universities in the area,
Newport Beach will be a great location for all the
attendees. RWW2014 consists of five related conferences that focus on the intersection between
wireless communication theory, systems, circuits,
and device technologies creating a unique forum
for engineers to discuss various technologies for
state-of-art wireless systems and their end-use
applications. The conference targets to bridge the
gap between digital, RF, hardware, and software
that need to be seamlessly combined to keep wireless industry and mobile applications growing.
This year’s theme is “Next Innovation in Wireless.” RWW’s multidisciplinary events bring together innovations that are happening across the
broad wireless spectrum. It is our hope that RWW
is a place where you will not only find discussions
for present problems, but you will also be inspired
by the diverse technical contents that might spark
ideas for future research. The diversity of RWW is
underlined by four diverse co-sponsor IEEE societies: Microwave Theory and Techniques Society
(MTT-S), Antennas and Propagation Society (APS), Communications Society (ComSoc), and Engineering in Medicine and Biology Society (EMBS).
In addition to traditional podium presentations
and poster sessions, there will be a track for IEEE
Distinguished Lectures, Sunday half day workshops, panels, industry exhibits, WirelessApps industry presentations, and a demo session. A highlight on Tuesday will be the plenary talk on “THz
Imaging for Biomedical Application” by Dr. Peter
Siegel of Caltech/JPL. Also on Tuesday afternoon,
in its third year, there will be a demo session where
presenters can bring in a demonstration of their latest wireless experiments for a hands-on interactive
forum. Demo session is particularly appropriate
with the spirit of RWW because we get to see and
feel how people are tackling real-world problems to
address the next wireless innovation.
To support and encourage students pursuing a
career in wireless area, each conference will have
a student paper competition with awards that will
be presented at the Tuesday banquet. On Monday
afternoon, all student paper competition finalists
will present their work in the poster session. I encourage you to check out what the next generation
of wireless engineers are working on.
I would like to invite everyone to join us for 3 ½
days of great technical presentations, discussions,
networking, and some fun in the beautiful Newport
Beach, California, 19-22 January 2014.
RWW2014 General Chair
Takao Inoue
RWW 2014 Steering Committee
General Chair
Takao Inoue
Technical Program Chair
Sergio Pacheco
RWS 2014 Technical Program
Committee
Passive Antennas
Chair: Jiang Zhu
James Schaffner
Marco Antoniades
Goutam Chattopadhyay Arnaud Amadjikpe
Alessandro Cidronali
Ahmed Kishk
Songnan Yang
Glauco Fontgalland
Propagation Channel Modeling and
Utilization
Chair: DanielBenevides da Costa
Michael Ong Lin Chuen Emery Chen
ChangzhiLi
Transceivers and Front-end Technologies SOC
and SiP
Chair: Shoichi Narahashi
Nathalie Deltimple
T.S. Jason Horng
Wasif Tanveer Khan
Max Scardelletti
Xin Wang
Hiroshi Okazaki
Telesphor Kamgaing
MIMO, Signal Processing and Smart Antennas
Chair: Ramya Bhagavatula
Dimitris Toumpakaris
Chau Yuen
Michael Chia
Yazhou Wang
Eiji Okamoto
High-speed and Broadband Wireless
Technologies
Chair: Shilong Pan
Beatrice Cabon
Idelfonso Tafur Monroy
Yik-Chung Wu
Minoru Fujishima
Software Defined Radios and Cognitive Radios
Chair: Abbas Omar
Nuno Borges Carvalho
Ed Niehenke
Dimitrie C Popescu
Lin Song
Yves Baeyens
Wireless Systems Architecture and Modeling
Chair: Markos Anastasopoulos
Ugo Dias
Hyun Kyu Chung
Vegas Olmos
Emerging Wireless Technologies and Applications
Chair: Sergio Pacheco
Chia-Chan Chang
Yoshihiro Kawahara
Zhen Ning Low
Dimitrios Peroulis
DebabaniChoudhury
Digital Signal Processing as Applied to Wireless
Chair: Karl Molnar
Upkar Dhaliwal
Swami Sankaran
Renato Negra
Xinwei Wang
Shin Hara
Passive Components and Packaging
Chair: Rashaunda Henderson
Roberto Gomez-Garcia
Xun Gong
Dariush Mirshekar
Hualiang Zhang
Clemens Ruppel
Late News Papers
Chair: Sergio Pacheco
Takao Inoue
Karl Varian
Xun Gong
Charlie Jackson
Kevin Chuang
Telesphor Kamgaing
Invited Papers
Chair: Telesphor Kamgaing
Sergio Pacheco
2
General Chair:
Takao Inoue, National Instruments
General Co-Chair:
Technical Program Chair:
Sergio Pacheco, Freescale
Technical Program Co-Chair:
Telesphor Kamgaing, Intel
Topical Conference PAWR Co-Chairs:
Almudena Suarez Rodriguez, University of Cantabria
Topical Conference BioWireleSS Co-Chairs:
Dietmar Kissinger, University of Erlangen-Nuremberg
Mohamed Mahfouz, University of Tennessee
Topical Conference WiSNet Co-Chairs:
Rahul Khanna, Intel
Alexander Koelpin, University of Erlangen-Nuremberg
Finance Chair:
Jeremy Muldavin, MIT Lincoln Laboratory
Web Master:
Min Hua, Raysilica
Workshops Co-Chairs:
Nuno Borges Carvalho, Universidade de Aveiro
Roberto Gomez-Garcia, Universidade de Alcala
Plenary & Panel Session Co-Chairs:
Jim Sowers, Space Systems Loral
Norman Chiang, Space Systems Loral
Kirk Laursen, Space Systems Loral
Distiguished Lectures Session Chair:
Hermann Schumacher, University of Ulm
Poster Session Chair:
Yupeng Jia, National Instruments
Demo Track Chair:
Changzhi Li, Texas Tech University
Paper Submission Management System Chair:
Kevin Chuang, MIT Lincoln Laboratory
Publications Chair:
Wasif Tanveer Khan, Georgia Insitute of Technology
Publications Co-Chair:
Spyridon Pavlidis, Georgia Institute of Technology
Aida L. Vera Lopez, Georgia Institute of Technology
WirelessApps Chair:
Sherry Hess, AWR
Student Paper Awards Co-Chairs:
Rashaunda Henderson, University of Texas at Dallas
Talal Al-Attar, Santa Clara University
Abbas Omar, University of Magdeburg
Publicity Co-Chairs:
Li Lu, Qualcomm
Special Consultant and Advisor:
George Heiter, Heiter Microwave Consulting
Microwave Magazine Special Issue Editor:
Rizwan Bashirullah, University of Florida
Exhibition/Sponsorships:
Charlie Jackson, Northrop Grumman
Janet O’Neil, ETS-Lindgren
Conference Management:
Elsie Cabrera, IEEE
IMS TPC Chair Coordination:
Leonard Hayden, Teledyne LeCroy
APS Liaison:
Piergiorgio Uslenghi
ComSoc Liaison:
Hsiao-Hwa Chen, National Cheng Kung University
International Liaison:
Zaher Bardai
RWW Executive Committee Chair:
Signage:
Bela Szendrenyi, Verigy
At Large (Advisors):
John Barr, IEEE MTT Society
George Ponchak, NASA Glenn Research Center
Nicholas Kolias, Raytheon
The 14TH Topical Meeting on
Silicon Monolithic Integrated
Circuits in RF Systems
Message from the SiRF General Chair:
Welcome to SiRF 2014!
Welcome to the Beautiful Newport Beach, California for
SiRF’14!
The IEEE SiRF conference has been at the forefront of
moving silicon-based technologies into RF, microwave and
millimeter-wave applications – a development trend now
widely accepted and gaining more and more importance.
Silicon-based technologies such as RF CMOS, RF SOI, and
Si/SiGe BiCMOS are not only critical for various commercial
applications today, they are also being increasingly deployed
for military and biomedical applications as well. RFSOI, for
example, is now one of the fastest growing technologies in the
handset front end modules (FEM) for realizing RF switches
and antenna tuners. RF CMOS and SiGe BiCMOS have not
only been the mainstream technologies for WLAN and handset RF/analog transceiver ICs, but they also are serious contenders for RF power amplifiers applications as well. The 14th
IEEE Topical Meeting on Silicon Monolithic Integrated Circuits
in RF Systems (SiRF 2014) will again take place during the
Radio and Wireless Week (RWW, January 20-22, 2014) in the
charming city of Newport Beach in Southern California, USA.
The conference is sponsored by IEEE Microwave Theory and
Techniques Society (MTT), and is a great conference venue
to report the latest breakthroughs in silicon-based RF technologies, and to network with the world experts in this field.
As commented by the SiRF’13 General Chair Professor
Shummaker: “Once comfortably in the realm of specialists’
workshops, where you met the same group of colleagues
every year, SiRF now competes with established biggies like
the International Solid-State Circuits Conference (ISSCC)
or IEEE MTT-S International Microwave Symposium (IMS),
which recently attract large numbers of papers on Si RFICs.
Thus, SiRF has to constantly reinvent itself. Its main niche is
that it was never a technologists’ or a circuit designers’ conference. It was and is the place where these two worlds meet,
where new processes can be benchmarked against the needs
of circuit designers at the bleeding edge of RF systems,
where today’s design compromises can trigger tomorrow’s
advanced technologies.” SiRF 2014 continues this trend, with
a renewed emphasis on promoting discussions between IC
designers and researchers on non-standard technologies,
exploiting the maturity of Silicon processes, but addressing
the challenges of tomorrow. Therefore, technical papers in the
areas of Materials, Technologies, Devices, Circuits, Silicon
Photonics, Applications, Yield & Reliability, Signal Integrity,
and Measurement & Modeling are covered.
To highlight some of the very important research development milestones, SiRF’14 features several important invited
talks form both university and industry, and please see the list
below with their titles:
1-Prof. Peter Asbeck, University of California San Diego,
“Stacked Si MOSFET Strategies for Microwave and Mm-wave
Power Amplifiers”
2-Prof. Chi On Chui, University of California Los Angles, “RF
Performance Limits of Ballistic Si Field-Effect Transistors”
3-Dr. Tahir Hussain, HRL Laboratories, “Recent Advances in
Monolithic Integration of Diverse Technologies with Si CMOS”
4-Prof. Larry Larson, Brown University, “Wideband Envelope
Tracking Power Amplifiers for Wireless Communications”
5-Prof. Gabriel Rebeiz, University of California San Diego,
“Extreme Silicon RFICs for Phased-Array Applications”
6-Dr. Magnus Wiklund, Qualcomm, “Latest Development of
Near-field communication (NFC) on Handsets Application”
A set of selected SiRF’14 papers is planned to be arranged
for submission to IEEE Transactions on Microwave Theory
and Techniques, for publication in a single issue. Papers will
need to be significantly expanded from the conference version
and will go through the regular review process for publication.
Please visit us at http://www.silicon-rf.org/ to see the details
and again, we cordially welcome you to be part of the SiRF
2014 and RWW in Newport Beach, California!
SiRF 2014 Technical Program
Committee
Technical Program Chairs:
Chien-Nan Kuo, National Chiao Tung University
Julio Costa, RFMD
Technology, Devices and Modeling
Chair: Mehmet Kaynak, IHP Microelectronics
Julio Costa, RFMD
Mingta Yang, Qualcomm
Katsuyoshi Washio, Hitachi
Guofu Niu, Auburn University
Harrie Tilmans, IMEC
Passives and MEMS
Chair: Jean-Pierre Raskin, UCL
Xun Gong, UCF
Pierre Blondy, University of Limoges
Emmanuel Defay, LETI
Hasan Sharifi, HRL Laboratories
Circuits
Chair: Larry Larson, UCSD
Hermann Schumacher, University of Ulm
Vince Fusco, Queens University of Belfast
Lance Kuo, Raytheon
Yunliang Zhu, Qualcomm
Austin Ying-Kuang Chen, Skyworks Solutions
Hsieh-Hung Hsieh, TSMC
Kenichi Okada, Tokyo Institute of Technology
Jae-Sung Rieh, University of Korea
Gang Liu, University of Ulm
Applications and Wireless Architectures
Chair: Francesco Dantoni, Texas Instruments
Donald Y.C. Lie, Texas Tech University
Chien-Nan Kuo, NCTU
Jürgen Hasch, Bosh
Yan Li, RFMD
Himanshu Khatri, Qualcomm
Late News Papers
Chair: Sergio Pacheco, Freescale
Takao Inoue, National Instruments
Xun Gong, University of Central Florida
Charlie Jackson, Northrop Grumman
Kevin Chuang, MIT Lincoln Laboratory
Telesphor Kamgaing, Intel
SiRF 2014 Steering Committee
General Chair:
Donald Lie, Texas Tech University
Technical Program Co-Chairs:
Julio Costa, RFMD
Publicity Chair:
Hasan Sharifi, HRL Laboratories
Publications Chair:
Xun Gong, University of Central Florida
Poster Session:
Jae-Sung Rieh, Korea University
International Liaison Europe:
International Liaison Asia:
Executive Committee:
Basanth Jagannathan, IBM Corporation
Erich Kasper, University of Stuttgart
Mehmet Kaynak, IHP GmbH
Rudolf Lachner, Infineon Technologies AG
Donald Y. C. Lie, Texas Tech University
Zhenqiang (Jack) Ma, University of WisconsinMadison
Guofu Niu, Auburn University
Sergio Pacheco, Freescale Semiconductor
Dimitrios Peroulis, Purdue University
Robert Plana, LAAS-CNRS
George Ponchak, NASA Glenn Research Center
Clemens Ruppel, EPCOS AG
Peter Russer, Munich University of Technology
Hermann Schumacher, Ulm University
Vaclav Valenta, Ulm University
Katsuyoshi Washio, Tohoku University
Robert Weigel, University of Erlangen-Nuremberg
REGISTRATION HOURS
SOCIAL EVENTS
Registration is open during the following times
at the Registration
Complimentary Daily Breakfast
Place: Lounge
Time: 07:00-08:00
Sunday, 19 January: 10:00-17:00
Monday, 20 January: 07:00-17:00
Tuesday, 21 January: 07:00-17:00
Wednesday, 22 January: 07:00-10:00
EXHIBIT HOURS
The exhibition area (Newport Coast Ballroom
1-5) is open during the following times:
Monday, 21 January 2013 13:00 - 17:00
Tuesday, 22 January 2013 10:00 - 17:00
For the latest information and details on how to
become a sponsor and exhibit at RWW please
visit: http://www.radiowirelessweek.org/exhibits.
Complimentary Daily AM Coffee Breaks
Place: Ballroom Foyer
Time: 9:40-10:10
Complimentary Daily PM Coffee Breaks
Place: Ballroom Foyer(Wednesday) and Newport Coast Ballroom1-5 (Monday and Tuesday)
Time: 15:10-15:40
Daily Lunch
A lunch buffet will be served Monday-Wednesday at Seaview Terrace (outside)
Time:12:00-13:00
RWW New Attendee Reception
Place: Cardiff
Monday 17:30-19:00
RWW Reception
Place:Seaview Terrace (outside)
Monday 18:00-20:30
Yours sincerely,
Donald Y.C. Lie, Ph.D.
Keh-Shew Lu Regents Chair Professor
Texas Tech University
[email protected]
SiRF’14 General Chair
RWW/SiRF Awards Banquet
Place: Baycliff
Tuesday 18:00-20:30
3
Power Amplifiers for Radio
and Wireless Applications
(PAWR)
RWW Topical Conferences
Wireless Sensors and Sensor
Networks (WiSNet)
Interest in power amplifier technology remains
at an all time high because of the emergence
of new device materials such as GaN that offer
improved performance, and the need for ever
greater linearity and efficiency by the world’s
expanding wireless communication infrastructure. This year, the Topical Conference on Power
Amplifiers for Wireless and Radio Applications
(PAWR) will feature a full day of power amplifier
focused sessions, including the latest advances
on power amplifier technology, efficiency enhancement techniques, system analysis, modeling, distortion reduction, and for the second year,
an interactive workshop answering questions on
power amplifier linearization and efficiency enhancement.
WiSNet is dedicated to the advancement of
wireless sensors for commercial and industrial
applications and will be held to specifically focus on the latest developments in these areas
of RF Sensors and Sensor Networks. Wireless
sensors and sensor networks are critical system components for manufacturing, monitoring, safety, as well as positioning and tracking
applications. This year, WiSNet2014 will be a
full day topical conference focused on the latest developments in these areas. Different sessions will focus on sensors and smart sensor
networks ranging from UHF, RFID applications
to millimeter-wave radar systems. Furthermore
novel ideas for wireless localization techniques
and sensors for harsh environments will be the
focus of two individual sessions.
Technical Committee:
Distortion Reduction Techniques in RF
Power Amplifiers
Chair: Allen Katz
Slim Boumaiza
Jinsung Choi
Armando Cova
Kiki Ikossi
Peter Kenington
Shabbir Moochalla
Timo Rahkonen
Joe Staudinger
Wireless Sensors for Communication,
Radar, Positioning and Imaging Applications
Chair: Martin Vossiek
Changzhi Li
Aly Fathy
Mario Pauli
Kamal Samanta
High Efficiency RF Power Amplifiers
Chair: Arturo Mediano
James Komiak
Song Lin
Chao Lu
Mohammad Madihian
FrederickRaab
Dave Runton
Ali Tombak
John Walker
RF Power Amplifier Technology
Chair: Marc Franco
Nick Cheng
Nathalie Deltimple
Murat Eron
Gary Hau
Chan-Ho Lee
Donald Lie
Zoya Popovic
Bumman Kim
Power Amplifier Modeling and System
Analysis
Chair: Andrei Grebennikov
Robert Caverly
Wolfgang Heinrich
Yang (Edward) Li
Stephen Maas
Almudena Suarez
Francis Rotella
Jose Carlos Pedro
Eugene Tkachenko
Wireless Sensors for Localization, Tracking,
and RFID Technologies
Chair: Manos M. Tentzeris
Xianming Qing
Apostolos Georgiadis
Hao Xin
Reinhard Feger
Wireless Integrated Sensors, Front-Ends,
and Building Blocks
Chair: Linus Maurer
Huei Wang
Thomas Ussmueller
Nils Pohl
Andreas Baenisch
Daniela Dragomirescu Wireless Sensors for Harsh Environments,
Home, Health and Communication
Chair: Alexander Koelpin
Georg Fischer
Arne Jacob
Maurizio Bozzi
Hendrik Rogier
Sensor Network Communication
Architecture and Topologies
Chair: Rahul Khanna
Alexander Koelpin
Xun Gong
Six Port and Multi-port Technology
Chair: Alexander Koelpin
Serioja Tatu
Íñigo Molina Fernández
Fadhel Ghannouchi Tuami Lasri
Adriana Serban
Joakim Osth
Gabor Vinci
Wireless Sensors for Wearable Computing
and Internet of Things
Chair: Rahul Khanna
Alexander Koelpin
Ian Gresham
Ed Niehenke
Invited Papers
Chair: Rahul Khanna
Alexander Koelpin
Balboa Boardsports, Newport Beach
Courtesy: Newport Beach and Company
Biomedical Wireless Technologies, Networks, and Sensing
Systems (BioWireleSS)
The IEEE Topical Conference on Biomedical
Wireless Technologies, Networks, and Sensing Systems (BioWireleSS) will premier in Austin, Texas. This two day topical conference will
be a vital part of the IEEE Radio and Wireless
Symposium, featuring the latest developments
in wireless biomedical technologies, networks
and sensing systems. The wireless revolution
has begun to infiltrate the medical community
with patient health monitoring, telesurgery, mobile wireless biosensor systems, and wireless
tracking of patients and assets becoming a reality. The rapid evolution of wireless technologies coupled with powerful advances in adjacent
fields such as biosensor design, low power battery operated systems, and diagnosing and reporting for intelligent information management
has opened up a plethora of new applications for
wireless systems in medicine.
Wireless Technologies for Biosignals and
Modeling in Medical Environments
Chair: Jung-Chih Chiao
Alper Bozkurt
Natalia Nikolova
Marc Notten
Mohammad-Reza Tofighi
Aydin Farajidavar
Wireless Position and Localization in
Medicine
Chair: Mohamed Mahfouz
Andreas Stelzer
David Ricketts
Michael Kuhn
Upkar Dhaliwal
Aydin Farajidavar
Changzhi Li
PAN, BAN, Energy Scavenging and Remote
Patient Monitoring
Chair: Changzhi Li
Dietmar Kissinger
Dominique Schreurs
David Ricketts
Yong Xin Guo
Syed Islam
Aydin Farajidavar
Micro-Sensors and In-vivo Microsystems
Chair: Rizwan Bashirullah
Jung-Chih Chiao
Marc Notten
Michael Kuhn
Arnaud Pothier
Claire Dalmay
Katia Grenier
Alper Bozkurt
Syed Islam
David Dubuc
Microwaves in Biological Applications and
Interaction with Biological Tissues
Chair: Mohammad-Reza Tofighi
Yong Xin Guo
Victor Lubecke
Dominique Schreurs Indira Chatterjee
Usmah Kawoos
Andre Vander Vorst
Katia Grenier
Jung-Chih Chiao
Arye Rosen
David Dubuc
Medical Imaging and Applications
Chair: Natalia Nikolova
Arye Rosen
Usmah Kawoos
Anand Gopinath
Victor Lubecke
Mohammad-Reza Tofighi
ChangzhiLi
Invited Papers
Chair: Dietmar Kissinger
Mohamed Mahfouz
Diamond Sponsor:
4
Technical Program for 2014 Radio Wireless Week (RWW)
SUNDAY, 19 JANUARY 2014
Sunday Workshops 13:00-17:00
PA Design: From Device
Model to High-Performance
Circuit
Diversity in Biomedical
Radar Applications
RF Energy Harvesting:
Challenges and Applications
Recent Advances On Radar
Systems for Defense/
Security, Localization and
Other Emerging Applications
Room: Baycliff
Room: Cardiff
Room:Laguna/Sunset
Room: Newport coast Ballroom 1/2
Organizers:
José A. García, University of Cantabria,
Spain
Zoya Popovic, University of Colorado at
Boulder, CO, USA
Organizers:
Dominique Schreurs, KU Leuven, Belgium.
Changzhi Li, Texas Tech University.,
TX, USA
Organizers:
A. Georgiadis CTTC, Spain
Manos M. Tentzeris, Georgia Institute of
Technology, USA
Organizers:
Roberto Gómez-García, University of
Alcalá, SPAIN
Arjuna Madanayake, University of Akron, OH, USA
Power amplifiers (PA) have a vital role
in modern wireless communication and
sensor systems. The requirements for
simultaneously providing improved efficiency and linearity, multi-band or
broadband coverage, together with
those of high output power and frequency of operation, have been forcing
an aggressive evolution of design techniques. In order to arrive to an optimal
practical solution, advancements at the
device modeling level are necessarily
combined with novel amplifying circuit
topologies and with system level considerations, where the digital processing of the signal may offer additional
benefits.
This workshop will address a wide variety of topics related to PA design.
Starting with an overview presentation,
covering technology and design issues at microwave and millimeter-wave
bands, the relevance of dedicated characterization procedures and accurate
transistor models will be highlighted. A
wide variety of power MMIC designs,
based on the disruptive GaN HEMT
technology, will be then described, in
which PAs are complemented by associated circuitry (limiters and switches).
Harmonically terminated and switchedmode amplifying theory can be shown
to lead to multi-band and broadband
architectures, integrated in high performance Doherty topologies. The application of these and other high efficiency
techniques to mm-wave PAs will be also
under consideration for Si and SiGe
processes. Finally, wideband and efficient solutions based on load modulation concepts, such as the Doherty and
outphasing techniques, are covered in a
common framework.
Radars are traditionally associated with
traffic and defense applications. In recent years, their distinctive advantage
in biomedical applications has been
recognized. Biomedical radars offer
remote and thus contactless and noninvasive monitoring. This workshop
presents an overview on the diversity
in biomedical radar uses. Applications
range from vital signs monitoring, human gait tracking, tumor tracking, fall
detection, to cancer detection, etc. The
underlying operational principles can
usually be traced down to either CW or
UWB radar techniques, and therefore a
panel discussion is planned to explore
the pros and cons of each approach.
Microwave Imaging at the University
of Calgary: Prototype Systems and
Patient Studies
Elise Fear, University of Calgary, Canada
Design rules for energy autonomous
systems powered by ambient-available RF sources
Alessandra Costanzo, University of Bologna, Italy
Speakers:
Use of CW Radar for Tumor Tracking
in Motion-Adaptive Cancer Radiotherapy
Changzhi Li, Texas Tech University,
USA
Wireless powering of battery-less
sensors through low power RF energy harvesting
Zoya Popovic, University of Colorado,
Boulder, USA
UWB vs. (SF)CW Approaches in Biomedical Radars
Panel Discussion
Chipless tag evolution toward RFIDsensors for IoT
Luca Roselli, University of Perugia, Italy, Co-Authors: F. Alimenti, C. Mariotti,
M. Virili, G. Orecchini, P. Mezzanotte
Microwave and Millimeter-Wave Power Amplifiers: Devices, Technology,
Design, Benchmarks
James Komiak, BAE Systems
Device Modeling for PA Design
Stéphane Dellier, AMCAD Engineering
Ambient RF energy harvesting and RF
power transmission enable the wireless
powering of sensors, RFIDs and communication nodes. Advances in rectenna, voltage conversion and energy
management circuits, complemented
by progress in low power and power efficient circuit and sensor design, have
spurred numerous research efforts and
have enabled new innovating applications towards ubiquitous sensing and
machine-to-machine communication.
There are numerous challenges to be
addressed, such as compact antennas
and efficient voltage conversion circuits,
system architectures, signal design for
maximum power transfer, and the tradeoff between information and power
transmission. This workshop provides
an insight to RF energy harvester devices and their applications. The speakers will interact with the attendees emphasizing on future trends, expectations
and opportunities of RF energy harvesting as well as practical design aspects
and performance evaluation.
Speakers:
True Human Presence Detection with
Doppler Radar Occupancy Sensors
Victor Lubecke, University of Hawaii,
USA
Speakers:
Multiband RF energy harvester design and signal optimization for maximum RF-DC conversion efficiency
Ana Collado, CTTC , Spain
System-on-Chip UWB Pulse Radar
for Contactless Detection of Respiratory Patterns in Adults and Infants
Domenico Zito, University of Cork, Ireland
Inkjet-Printed Nanotechnology-Enabled IoT Inter/Intra-chip and “ZeroPower
Manos Tentzeris, Georgia Institute of
Technology, USA
SFCW Radar for Contactless Fall Detection and Human Gait Monitoring
Dominique Schreurs, KU Leuven, Belgium
High Power GaN MMICs
Charles Campbell, Triquint
Design Strategies for High Efficiency
PAs
Paolo Colantonio, University of Rome
Tor Vergata
Speakers:
A Dual-frequency IR-UWB Radar
System for Detection of Trapped Survivors in Post-disaster Scenarios
Zhao Li, Hao Lv, Yang Zhang, Xijing
Jing, and Jianqi Wang, Fourth Military
Medical University, Xi’an, China
Millimeter Wave Backscatter Transponders for Secondary RadarBased Localization
Wadim Stein, Christian Carlowitz, and
Martin Vossiek, University of ErlangenNuremberg, Germany
Multi-band LFMCW Radar Approaches for Improved Detection Capabilities
Roberto Gómez-García and José-María
Muñoz-Ferreras, , University of Alcala,
Madrid, Spain
Accurate Small Movement Detection
using Radar Sensor for Emerging
Mechanical and Biomedical Applications
Changzhan Gu and Changzhi Li, Texas
Tech University, Texax, USA
Silicon Phase Arrays RFICs with
a Large Number of Elements for
Millimeter-Wave Automotive Radar
Systems
Gabriel M. Rebeiz, University of California, San Diego, La Jolla, CA USA
High Efficiency Techniques for Millimeter-Wave PAs in Silicon/Silicon
Germanium Processes
James F. Buckwalter, University of California, San Diego
Wideband and Efficient Power Amplifiers based on Advanced Doherty and
Outphasing Techniques
Christian Fager, Chalmers University of
Technology
This workshop explores recent achievements in the exciting field of radar systems for defense/security, public safety,
weather, RF imaging & sensing, source
localization and other emerging applications. The workshop presents several
state-of-art topics covering key aspects
in radar.
The first talk addresses the utilization of
IR-UWB radar sensors for the detection
of trapped survivors under collapsed
buildings in post-disaster scenarios.
In the second talk, sophisticated backscatter transponder architectures operating at the millimeter wave range are
presented for secondary radar-based
localization. The third talk explores the
field of multi-band radar as a further
step in research into remote-sensing
systems having enhanced capabilities.
The fourth topic deals with noncontact
detection of small mechanical vibrations
and biological signals using Doppler radar sensors. Talk number five discusses
findings from bleeding edge research
on RFIC phased arrays having applications in automotive radars. Finally, the
last talk discusses multi-dimensional
signal processing techniques for apertures directed at radar and other steerable aperture applications.
Fashion Island, Newport Beach
5
Fundamental Theory of Digital/Analog Array Radar Receivers using 3-D
Multi-Beam Planar-Resonant Filter
Banks
Arjuna Madanayak, University of Akron,
Akron, OH, USA
SUNDAY, 19 JANUARY 2014
Panel Session - Future Wireless Communications 19:00-20:30
Moderator: Dr. G. P. Li, University of
California, Irvine
Panelists:
Dan Sievenpiper, UCSD
Julio Navarro, Boeing
Russell Hannigan, Intellectual Ventures
Yahya Rahmat-Samii, UCLA
John Walley, Broadcom
Room: Newport Coast Ballroom 1/2
Abstract:
In the past decade, the exponential growth of mobile devices, big data, social media, and cloud services have
driven the creation of a hyper-connected environment. In this environment the internet and its associated services are accessible and immediate, people and businesses can communicate with each other instantly, and
machines are closely interconnected with each other. As wireless communication continues to evolve, the
relationships among individuals, consumers and enterprises, and citizens and the state will all be redefined.
The future wireless communications ecosystem will introduce new opportunities to increase productivity and
well-being by redefining the way business is done, generating new products and services, and improving the
way public services are delivered. However, wireless communication will also bring about new challenges
and risks in terms of security, cybercrime, privacy, the flow of personal data, individual rights, and access to
information in clouds.
There is no doubt that the rapid changes and consequences of living and working in a hyper-connected world
will directly impact the development, deployment and delivery of communication technologies over the next
decade and beyond. But what will those global transformations be and what roles will industry, government,
and, ultimately, the end-user play.
Travelling to Newport Beach, CA
John Wayne Aiport
Airport Phone: 1 949 252 5200
Hotel direction: 5 mile(s) SW
Driving Directions: Turn right on MacArthur Blvd. Turn right on Jamboree Rd. Left
on Santa Barbara.
Hotel will be on the right as you go up the hill.
Long Beach Aiport – LGB
Hotel direction: 25 mile(s) SE
Driving Directions: Take 405 Frwy South to 73 Freeway South. Exit on Jamboree.
Turn Right On Jamboree. Turn Left On Santa Barbara. Hotel will be on the right.
Newport Beach Marriot Hotel and Spa
Courtesy: Marriot Hotel and Spa
Los Angeles International Airport – LAX
Hotel direction: 44 mile(s) SE
Driving Directions: Take 405 Frwy South to 73 Freeway South. Exit on Jamboree.
Turn Right On Jamboree. Turn Left On Santa Barbara. Hotel will be on the right.
LA/Ontario International Airport – ONT
Hotel direction: 49 mile(s) SW
Driving Directions: Turn right to merge onto CA-60 W. Slight right onto CA-57 S
(signs for Santa Ana).
Keep left at the fork and merge onto I-5 S. Continue onto Santa Ana Freeway. Merge
onto CA-55 S.
Take exit 5A toward State Route 73 S/San Diego Via. Merge onto CA-73 S/State
Route 73 S.
Take exit 15 toward Jamboree Rd. Merge onto SE Bristol St. Turn right onto Jamboree Rd.
Turn left onto Santa Barbara Dr. Take the 1st right onto Newport Center Dr. Destination will be on the right.
ADVANCE REGISTRATION
Advance registration for RWW 2014 is
open now until December 20, 2013. Register now to take advantage of the early
registration pricing!
Please visit http://www.radiowirelessweek.org and follow the registration
links.
Newport Beach
Newport Beach Attractions
Balboa Peninsula
The Balboa Peninsula features the original Ruby’s Diner and a view of a shoreline, surfers, and sunbathers spanning for
miles
Newport Center / Fashion Island
With an open-air elegance that fuses Italian style with California cool, Fashion Island boasts chic luxury boutiques, cafés and
restaurants on lushly landscaped piazzas accented by fountains and palm trees.
NEWPORT BEACH JAZZ PARTY
Enjoy 70 of the top straight-ahead jazz players in the country in a four-day party offering champagne brunch, pool, and
evening sessions. Four- and single-day tickets available.
Back Bay
Known to locals as the Back Bay, the Upper Newport Bay Nature Preserve and Ecological Reserve draws naturalists and
scientists from around the world. Some 35,000 migratory birds and 200 endangered species make their home on the 1,000
acres of coastal wetlands, which also offer hiking and cycling trails and amazing aquatic activities.
NEWPORT FUN TOURS
Premier destination for all your land and sea activities, tours, and adventures. Inventory includes beach-cruiser bikes,
electric bikes, electric kayaks, electric loungers, paddle boards, electric boats, and electric skateboards. Private patio (also
available for rent) and dock.
6
MONDAY, 20 JANUARY 2014
RWW Session: MO1A
RWW Distinguished
Lectures I
Chair: Hermann Schumacher,
University of Ulm
Room: Grand Pacific Ballroom
A/B
SiRF Session: MO1B
PAWR Session: MO1C
Passives and MEMS
Chair: Xun Gong, University of
Central Florida
Co-Chair: Mehmet Kaynak, IHP
Microelectronics
Room: Baycliff
RWS Session: MO1D
Distortion Reduction
Techniques in RF Power
Amplifiers
High-speed and
BroadBand Wireless
Technologies
Chair: Allen Katz, The College of
New Jersey
Co-Chair: Kiki Ikossi, DTRA
Chair: Juan Jose Vegas Olmos,
Technical University of Denmark
Room: Grand Pacific Ballroom D
C
08:00
MO1A-1 Embrace Circuit Nonlinearity
to Get Transmitter Linearity and Energy Efficiency
MO1B-1 Recent Advances in Monolithic Integration of Diverse Technologies with Si CMOS (Invited Paper)
MO1C-1 2D Forward Twin Nonlinear
Two-Box Model for Concurrent DualBand Digital Predistortion
E. Mc Cune, Besser Associates
T. Hussain, D. C. Wheeler, H. Sharifi,
K. Shinohara, Z. Xu, J. C. Li, P. R. Patterson, K. R. Elliott, W. Ha, Y. Royter, P.
D. Brewer, HRL, Malibu, United States
C. Quindroit1, N. Naraharisetti1, P. Roblin1, S. Gheitanchi2, V. Mauer2, M. Fitton3, 1Ohio State University, Columbus,
United States, 2Altera Europe, High Wycombe, United Kingdom, 3Altera, San
Jose, United States
MO1D-1 Full Dimensional MIMO for
Future Cellular Networks
S. Akoum, J. Acharya, Hitachi America,
Brisbane, United States
08:20
MO1C-2 High Efficiency Two-Stage
GaN Power Amplifier with Improved
Linearity
A. Khan, H. Sarbishaei, S. Boumaiza,
University of Waterloo, Waterloo, Canada
08:40
MO1A-2 Radio-Frequency Nanoelectronics- Bridging the Gap between
Nanotechnology and R.F. Engineering Applications
L. Pierantoni, Universita Politechnica
delle Marche
MO1B-2 Non-linear Characteristics
of Passive Elements on Trap-Rich
High-Resistivity Si Substrates
MO1C-3 Investigation of the AM/PM
Distortion in Doherty Power Amplifiers
K. Ben Ali1, C. Roda-Neve3, Y. Shim2,
M. Rais-Zadeh2, J. Raskin1, 1Université Catholique de Louvain, Louvain-laNeuve, Belgium, 2University of Michigan, Ann Arbor, United States, 3IMEC,
Leuven, Belgium
L. Piazzon, R. Giofrè, P. Colantonio, F.
Giannini, University of Roma Tor Vergata, Roma, Italy
MO1B-3 High Linearity 1-ohm RF
Switches with Phase-Change Materials
MO1C-4 Front-end Modules with
Versatile Dynamic EVM Correction
for 802.11 Applications in the 2 GHz
Band
A. Samelis, E. Whittaker, M. Ball, A.
Bruce, J. Nisbet, L. Lam, W. Vaillancourt, Skyworks Solutions Inc., Bishop’s
Stortford, United Kingdom
MO1D-2 High Capacity Wireless Data
Links in the W-Band Using Hybrid
Photonics-Electronic Techniques for
Signal Generation and Detection
J. Vegas Olmos, I. Tafur Monroy, Technical University of Denmark, Kgs. Lyngby, Denmark
09:00
J. Moon, H. Seo, D. Le, HRL Laboratories, Malibu, United States
MO1D-3 10 Gbps Outdoor Mobile
Communication Experiment Employing CoMP in 11 GHz Band
M. Takahashi, S. Suyama, H. Suzuki, K.
Fukawa, Tokyo Institute of Technology,
Meguro-ku, Japan
09:20
MO1B-4 Fabrication of Low Loss 67
GHz Coplanar Waveguides on GoldDoped High Resistivity Silicon
MO1C-5 Integrated Linearizer/Block
Upconverter
A. Katz2,1, R. Gray1, R. Dorval1, 1Linearizer Technology, Inc., Hamilton, United
States, 2The College of New Jersey, Ewing, United States
N. Z. Hashim, A. Abuelgasim, C. H. de
Groot, P. Ashburn, H. M. Chong, University of Southampton, Southampton,
United Kingdom
7
MO1D-4 Multi-Gigabit Data Transmission Using MMIC-based E-Band
Frontends
J. Antes1, F. Boes1, D. Meier1, U. Lewark2, A. Tessmann3, A. Leuther3, R.
Henneberger4, I. Kallfass1, 1University of Stuttgart, Stuttgart, Germany,
2
Karlsruhe Institute of Technology,
Karlsruhe, Germany, 3Fraunhofer Institute for Applied Solid State Physics,
Freiburg, Germany, 4Radiometer Physics GmbH, Meckenheim, Germany
Time: 14:20 – 16:10
RWW STUDENT PAPER Room: Newport Coast CONTEST
Ballroom 1-5
RWW 2014 Student Paper Chairs will select finalists among the student paper submissions, from each conference (RWS, PAWR, BioWireleSS, and
WiSNet, SiRF). During the poster presentation, held January 20, Monday afternoon 14:20 -16:10, judges will visit the student posters and grade the
papers in the following five areas: novelty of the research, quality of the poster, quantity of information presented, preparedness of the presenter, and
interest to the RWW community. The committee of judges will then select the first- and the second-place winners from each conference for a total of 8
winners. The awards will be announced and presented during the RWW Banquet held Tuesday night from 18:00-21:00. Please visit the student paper
competition and support outstanding work by future researchers in industry and academia.
Student Paper Contest Finalists - Poster Presentation
MO2C-2 A Novel Continuous Class-F
Mode Power Amplifier
B. M. Merrick, J. B. King, T. J. Brazil,
University College Dublin, Dublin,
Ireland
MO3C-3 Watt-Level Non-Uniform Distributed 6–37 GHz Power Amplifier
MMIC with Dual-Gate Driver Stage in
GaN Technology
P. Dennler, R. Quay, P. Brückner, M.
Schlechtweg, O. Ambacher, Fraunhofer
Institute for Applied Solid-State Physics, Freiburg, German
TU1D-3 Movement-Immune Respiration Monitoring Using Automatic DCCorrection Algorithm for CW Doppler
Radar System
WE1C-2 A 28 GHz Class-J Power
Amplifier with 18 dBm Output Power
and 35% peak PAE in 120 nm SiGe
BiCMOS
Y. Li1, G. Wang1, C. Gu2, C. Li1, 1Texas
Tech University, Lubbock, United
States, 2MaxLinear Inc, Irvine, United
States
A. Sarkar, B. Floyd, North Carolina
State University, Raleigh, United States
TU1D-2 PXI-based Non-Contact Vital
Sign Detection System
A. Elmaghraby, G. Fischer, R. Weigel,
T. Ussmueller, University of ErlangenNuremberg, Erlangen, Germany
S. Banerjee, C. Gu, C. Li, Texas Tech
University, Lubbock, United States
TU5B-2 Advanced Transmitters with
Combined Crest Factor Reduction
and Digital Predistortion Techniques
MO1B-2 Non-linear Characteristics
of Passive Elements on Trap-Rich
High-Resistivity Si Substrates
A. Farabegoli1,2, B. Sogl1, J. Mueller1,
R. Weigel2, 1Intel Mobile Communications GmbH, Neubiberg, Germany,
2Friedrich-Alexander-Universität Erlangen-Nürnbergr, Erlangen, Germany
K. Ben Ali , C. Roda-Neve , Y. Shim ,
M. Rais-Zadeh2, J. Raskin1, 1Université Catholique de Louvain, Louvain-laNeuve, Belgium, 2University of Michigan, Ann Arbor, United States, 3IMEC,
Leuven, Belgium
WE1A-4 Water Temperature Monitoring by Microwave Six-Port Interferometry at 24 GHz
A. Talai, S. Mann, R. Weigel, A.
Koelpin, Friedrich-Alexander-University
Erlangen-Nuremberg, Erlangen, Germany
WE1A-2 A Tank Level Sensor Based
on Six-Port Technique Comprising a
quasi-TEM Waveguide
S. Mann, S. Lindner, F. Barbon, S. Linz,
A. Talai, R. Weigel, A. Koelpin, Friedrich-Alexander University ErlangenNürnberg, Erlangen, Germany
MO4B-2 An Inductor-less LTE Receiver Using an 8-Path Filter for TX
Leakage Suppression
1
3
MO3A-4 Hetero-Plane Beam Synthesis Using 60 GHz Band 3-D Phased
Array Antenna Module
Y. Suzuki, S. Yoshida, S. Kameda,
N. Suematsu, A. Taira, T. Takagi, K.
Tsubouchi, Tohoku University, Sendai,
Japan
2
MO2D-2 Design of Touch-Sensitive
Surface with Arbitrary Shape Based
on Time-Domain Reflectometry Using Injket-Printing
MO2B-2 A Process-TechnologyScaling-Tolerant Pipelined ADC
Architecture Achieving 6-bit and 4
GS/s ADC in 45 nm CMOS
M. Q. Duong, Y. Kawahara, T. Asami,
The University of Tokyo, Bunkyo-ku,
Japan
M. W. Chen1, L. R. Carley1, D. S.
Ricketts2, 1Carnegie Mellon University, Pittsburgh, United States, 2North
Carolina State University, Raleigh,
United States
MO2D-3 High Dynamic-Range and
Sensitivity Six-Port Receiver Using
Reactive Matching Technique
S. Qayyum, M. Wei, R. Negra, RWTH
Aachen University, Aachen, Germany
WE4C-1 Novel Frequency Quadrupler Design Covering the Entire V
Band in 0.13 µm SiGe Process
TU3B-4 Wideband MIMO Channel
Sounding Setup for 2.4 GHz ISM
Band
F. Talebi, T. G. Pratt, University of Notre
Dame, Notre Dame, United States
MO4D-4 Compact 120-140 GHz
Radar Tx/Rx Sensors with On-Chip
Antenna
S. Yuan, A. Strodl, V. Valenta, A.
Trasser, H. Schumacher, Ulm University, Ulm, Germany
MO3B-4 Universal Wideband Reconfigurable Transceiver with Extended
Frequency Range up to 6 GHz
E. González-Rodríguez, H. Maune, Y.
Zheng, R. Jakoby, Technische Universität Darmstadt, Darmstadt, Germany
WE1B-4 Characterization of Liquid
Crystal Polymer (LCP) From 110 GHz
to 170 GHz
W. T. Khan, C. A. Donado Morcillo, A.
C. Ulusoy, J. Papapolymerou, Georgia
Institute of Technology, Atlanta, United
States
MO3D-4 Joint Direction-of-Departure
and Direction-of-Arrival Estimation
in an Ultra-Wideband MIMO Radar
System
I. Pasya1, T. Kobayashi1, N. Iwakiri2,
1
Tokyo Denki University, Tokyo, Japan,
2
University of Tokyo, Tokyo, Japan
MO3B-2 A 1.2 V, 2.7 mA Receiver
Front-end for Bluetooth Low Energy
Applications
S. Yuan, H. Schumacher, Ulm University, Ulm, Germany
L. Liao, A. Atac, Y. Zhang, Y. Wang,
Z. Chen, M. Schleyer, R. Wunderlich,
S. Heinen, RWTH Aachen University,
Aachen, Germany
Industry Forum - Tutorial Workshop on RF and
Microwave Filter Design
Organizer and Speaker: H. Clark Bell
Room: Grand Pacific Ballroom E
Monday
9:00-17:00
Abstract:
This course will present design basics for passive RF and microwave filters. Included will be discussions of
performance parameters, types of filter responses, estimating filter performance, characteristics of various
filter technologies, specifying filters realistically to avoid surprises, and use of filter design software. Specific
topics will include two-port parameters; lowpass and highpass ladders; Chebyshev filter; immittance inverters
and narrow-band design; resonator Q, delay and loss, and lossy coupling; TEM bandpass filters and bandstop filters; waveguide bandpass filters; general coupled-resonator prototype; loss approximation, the elliptic
function filter; realization polynomials and immittances; bandpass filters with cross couplings; dual mode
filters; environmental effects on filter performance.
The Industrial Forum includes an exhibit, Wireless Apps (similar to uApps) and special hardware demonstrations given by researchers
Note: Not Included in conference package. Please register at at http://rww2014filter.eventbrite.com.
Please see also Wednesday Industry Forum on page 21.
8
RWW Session: MO2A
SiRF Session: MO2B
PAWR Session: MO2C
Developing High
Efficiency Power
Amplifiers
RWS Session: MO2D
RWW Distinguished
Lecturers II
ADC and Amplifier
University of Ulm
Chair: Jae-Sung Rieh, Korea
University
Chair: Murat Eron, Miteq
Co-Chair: Ramon Beltran, Skyworks Solutions
Chair: Sergio Pacheco,
Freescale
A/B
Room: Baycliff
Room: Grand Pacific Ballroom C
MO2A-1 Optical Wireless Systems:
Challenges and Opportunities
MO2B-1 Stacked Si MOSFET Strategies for Microwave and Mm-wave
Power Amplifiers (Invited Paper)
Emerging Wireless
Technologies and
Applications
10:10
Jaafar M.H. Elmirghani, University of
Leeds
MO2C-1 Challenges in Designing 5
GHz 802.11ac WiFi Power Amplifiers
(Invited talk)
P. Asbeck, UCSD, La Jolla, United
States
Y. Wang, R. Naylor, RF Micro Devices,
Billerica, United States
MO2D-1 A Wideband Flexible Digital
Receiver Using Polyphase Harmonic
Mixer
W. Namgoong, University of Texas at
Dallas, Richardson, United States
10:30
MO2C-2 A Novel Continuous Class-F
Mode Power Amplifier
B. M. Merrick, J. B. King, T. J. Brazil,
University College Dublin, Dublin,
Ireland
10:50
MO2B-2 A Process-TechnologyScaling-Tolerant Pipelined ADC
Architecture Achieving 6-bit and 4
GS/s ADC in 45 nm CMOS
MO2C-3 Novel Design of a 10 dB
Back-Off Broadband Sequential
Doherty Power Amplifier for Wireless
Applications
MO2D-2 Design of Touch-Sensitive
Surface with Arbitrary Shape Based
on Time-Domain Reflectometry Using Injket-Printing
M. W. Chen1, L. R. Carley1, D. S. Ricketts2, 1Carnegie Mellon University, Pittsburgh, United States, 2North Carolina
X. Nghiem, R. Negra, RWTH Aachen
University, Aachen, Germany
M. Q. Duong, Y. Kawahara, T. Asami,
The University of Tokyo, Bunkyo-ku,
Japan
MO2B-3 A 65 nm CMOS 0.1 GHz
to 2.1GHz Linear-in-dB VGA with
Active-Inductor Bandwidth Extension
for the Square Kilometer Array
MO2C-4 A 10-W Modified LINC
Power Amplifier with a Reduced-Size
Chireix Power Combiner
MO2D-3 High Dynamic-Range and
Sensitivity Six-Port Receiver Using
Reactive Matching Technique
G. Wu, L. Belostotski, J. W. Haslett,
University of Calgary, Calgary, Canada
O. Talebi Amiri, A. Koukab, Ecole
Polytechnique Fédérale de Lausanne
(EPFL), Lausanne, Switzerland
S. Qayyum, M. Wei, R. Negra, RWTH
Aachen University, Aachen, Germany
MO2B-4 A Switchable-Core SiGe HBT
Low-Noise Amplifier for MillimeterWave Radiometer Applications
MO2C-5 GaN High-Efficiency S-band
Power Amplifier with Power Flexibility from 1 to 10 Watts
MO2D-4 Optimal Bits per Joule
Power Allocation for Multiuser Cognitive Radio Networks
C. A. Ulusoy, R. L. Schmid, C. Coen, J.
D. Cressler, Georgia Institute of Technology, Atlanta, United States
S. Dellier1, T. Dehaene2, E. Peragin3,
1
AMCAD Engineering, Limoges,
France, 2Syrlinks, Bruz, France,
3
Centre National d’Etudes Spatiales
(CNES), Toulouse, France
M. Naeem, K. Illanko , A. Karmokar, A.
Anpalagan, M. Jaseemuddin, Ryerson
University, Toronto, Canada
11:10
11:30
9
RWW Session: MO3A
Millimeter-Wave
Antennas
PAWR Session: MO3C
RWS-SiRF Joint Session: MO3B
Power Amplifier
Technology Develoments
Advanced Transceiver
Technologies I
RWS Session: MO3D
MIMO Signal Processing
and Smart Antennas
Chair: Goutam Chattopadhyay,
NASA - Jet Propulsion Laboratory
Chair: Vijay Nair, Intel Corporation
Chair: Marc Franco, RFMD
Co-Chair: Nathalie Deltimple,
IMS Laboratory, University of
Bordeaux
Chair: Cagri Ulusoy, Georgia
Institute of Technology
A/B
Room: Baycliff
MO3A-1 Design and Measurements
of Substrate Integrated Planar mmWave Antenna Array at 60 to 325
GHz
MO3B-1Extreme Silicon RFICs for
Phased-Array Applications (Invited
Paper)
Z. Chen1,2, X. Qing2, S. Yeap2, J. Xu2,
1
National University of Singapore,
Singapore, Singapore, 2Institute for Infocomm Research, Singapore, Singapore
13:30
MO3C-1 Advanced Design of Differential CMOS PA (Invited talk)
B. Kim1,2, S. Jin1, B. Park2, Y. Cho1, C.
Zhao1, K. Moon1, 1Pohang University of
Science and Technology (EE), Pohang,
Republic of Korea, 2Pohang University
of Science and Technology (ITCE),
Pohang, Republic of Korea
G. M. Rebeiz, University of California,
San Diego, La Jolla, United States
MO3D-1 Prototyping and Performance Evaluation of TDD-Based 2x2
MIMO-OFDM Transceiver
K. Mitsuyama, N. Kogo, F. Uzawa, N.
Iai, Japan Broadcasting Corporation
(NHK), Tokyo, Japan
13:50
MO3D-2 Nonlinear Distortion Suppression Scheme Employing Transmit Power Control for MU-MIMOOFDM Systems
G. Osada, S. Takebuchi, F. Maehara,
Waseda University, Shinjuku-ku, Japan
14:10
MO3A-2 Investigating the Effect of
Grounding GPS Antennas on their
Radiation Properties on Vehicular
Platforms
D. N. Aloi1, E. Ghafari1, A. Steffes1,
M. S. Sharawi2, 1Oakland University,
Rochester, United States, 2King Fahd
University of Petroleum and Minerals
(KFUPM), Dhahran, Saudi Arabia
MO3B-2 A 1.2 V, 2.7 mA Receiver
Front-end for Bluetooth Low Energy
Applications
L. Liao, A. Atac, Y. Zhang, Y. Wang,
Z. Chen, M. Schleyer, R. Wunderlich,
S. Heinen, RWTH Aachen University,
Aachen, Germany
MO3C-2 A Q-band Power Amplifier
with High-gain Pre-driver and 18.7
dBm Output Power for Fully Integrated CMOS Transmitters
MO3D-3 Indoor Experiment of 8-by-2
Multiuser MIMO Transmission using
Tomlinson-Harashima-Precoding
Subject to Limited CSI Feedback
W. Tai1, D. S. Ricketts2, 1Carnegie
Mellon University, Pittsburgh, United
States, 2North Carolina State University,
Raleigh, United States
Y. Hatakawa, T. Matsumoto, K. Kitagawa, S. Konishi, KDDI R&D Laboratories
Inc., Fujimino, Japan
14:30
MO3A-3 A 60 GHz Passive Repeater
with Endfire Radiation Using Dielectric Resonator Antennas
D. Wang, R. Gillard, R. Loison, Institute
of Electronics and Telecommunications
of Rennes, Rennes, France
MO3B-3 0.35 dB Loss 20 dB Coupling Directional Coupler Integrated
in 130 nm CMOS SOI Technology
Targeting 3G PA SOC
MO3C-3 Watt-Level Non-Uniform Distributed 6–37 GHz Power Amplifier
MMIC with Dual-Gate Driver Stage in
GaN Technology
MO3D-4 Joint Direction-of-Departure
and Direction-of-Arrival Estimation
in an Ultra-Wideband MIMO Radar
System
F. Gianesello, C. Durand, D. Gloria,
STMicroelectronics, Crolles, France
P. Dennler, R. Quay, P. Brückner, M.
Schlechtweg, O. Ambacher, Fraunhofer
Institute for Applied Solid-State Physics,
Freiburg, German
I. Pasya1, T. Kobayashi1, N. Iwakiri2,
1
Tokyo Denki University, Tokyo, Japan,
2
University of Tokyo, Tokyo, Japan
14:50
MO3A-4 Hetero-Plane Beam Synthesis Using 60 GHz Band 3-D Phased
Array Antenna Module
MO3B-4 Universal Wideband Reconfigurable Transceiver with Extended
Frequency Range up to 6 GHz
MO3C-4 Gain/Phase Compensation
for Outphasing Transmitters Targeting LTE Applications
Y. Suzuki, S. Yoshida, S. Kameda, N.
Suematsu, A. Taira, T. Takagi, K. Tsubouchi, Tohoku University, Sendai, Japan
E. González-Rodríguez, H. Maune, Y.
Zheng, R. Jakoby, Technische Universität Darmstadt, Darmstadt, Germany
T. M. Hone, A. F. Aref, J. Guan, R.
Negra, Mixed-Signal CMOS Circuits,
Aachen, Germany
10
MO3D-5 Development of Multiuser
MIMO Testbed Adopting TomlinsonHarashima Precoding and Limited
CSI Feedback
T. Matsumoto, Y. Hatakawa, K. Kitagawa, S. Konishi, KDDI R&D Laboratories,
Inc., Fujimino, Japan
Interactive Poster Session: PAWR 14:20-16:10
MO3P High Efficiency RF Power Amplifiers
Room: Newport Coast Ballroom
MO3P-1 An Output Match Network
Design Method for High Efficiency
and Broadband Class-J PA
L. Ma, F. You, X. Hou, Y. Li, University
of Electronic Science & Technology of
China, Chengdu, China
MO3P-2 Highly Linear 1.6 GHz 3.3 V
RF Power Amplifier Using Floating
Body Technique In Triple-well 130
nm CMOS Technology
M. A. Khan, R. Negra, RWTH Aachen
University, Aachen, Germany
MO3P-3 A Broadband Parallel
Doherty Amplifier with Large Power
Back-off
X. Hou, S. He, L. Ma, F. You, University
of Electronic Science and Technology
of China, Chengdu, China
MO3P-4 Design of 60 GHz 90 nm
CMOS Balanced Power Amplifier With Miniaturized Quadrature
Hybrids
C. Lin, C. Yu, H. Kuo, H. Chuang, National Cheng Kung University, Tainan,
Taiwan
MO3P-5 SOI MESFET RF Power
Amplifiers at the 45 nm Node
S. J. Wilk1,2, W. Lepkowski1,2, T. J.
Thornton1,2, 1Arizona State University,
Tempe, United States, 2SJT Micropower Inc., Fountain Hills, United States
MO3P-6 Design of Broadband GaN
Doherty Power Amplifiers
J. Shao, R. Zhou, H. Ren, B. Arigong,
M. Zhou, H. Kim, H. Zhang, University
of North Texas, Denton, United States
MO3P-10 Signal Generation Algorithm for Digital Polar Transmitters
with Reduced Receive Band Noise
T. Nakatani1, H. Gheidi1, V. W. Leung2,
D. F. Kimball3,1, P. M. Asbeck1, 1University of California San Diego, La Jolla,
United States, 2Qualcomm Technology
Inc., San Diego, United States, 3MaXentric Technologies, LLC, La Jolla,
United States
MO3P-7 Analysis of High Power
LDMOS Amplifiers for Industrial
Applications under Mismatch Conditions
A. Alt, A. Grede, A. Labanc, C. Thome,
D. Gruner, TRUMPF Huettinger GmbH
+ Co. KG, Freiburg, Germany
MO3P-11 Creating a High Efficiency,
Miniaturized Power Amplifier Module for the Emerging Pico-cell Base
Station Market
R. A. Branson, G. Burgin, J. Dekosky,
J. Gengler, J. Delaney, R. Hajji, A.
Roberts, T. Landon, Triquint, Richardson, United States
MO3P-8 Characterization of GaN
HEMTs for Integrated Supply Modulators
A. T. Pereira1, A. E. Parker1, M. Heimlich1, N. Weste1, L. Dunleavy2, 1Macquarie University, Sydney, Australia,
2
Modelithics, Inc, Tampa, United States
MO3P-12 Parameterized Basis
Functions for Numerically Stable
Behavioral Modeling of RF Power
Amplifiers
A. Harguem1,3, N. Boulejfen2,3, F.
Ghannouchi3, A. Gharsallah1, 1Faculté
des Sciences de Tunis, Tunis, Tunisia,
2
Institut Supérieure des Sciences
Appliquées et de Technologie, de
Kairouan, Kairouan, Tunisia, 3iRadio
Laboratory, Schulich School of Engineering, University of Calgary, Calgary,
Canada
MO3P-9 Behavioral Modeling of
Class J Amplifier Driven by 100
MHz LTE-Advanced Signal Using
Dynamic Nonlinearity Reduction
O. Hammi1, S. Bensmida2, K. Morris2,
1
King Fahd University of Petroleum
and Minerals, Dhahran, Saudi Arabia,
2
University of Bristol, Bristol, United
Kingdom
Marriott Newport
Beach Hotel –
Official RWW Meeting Venue
The RWW2014 Planning Committee has secured a favorable rate for
all RWW attendees at the official
meeting venue. In order to receive
the special rate, please book your
accommodations by Monday, 24
December 2013 at 5:00pm Central
Time. Please note the discounted
rates are only available over official
Symposium dates. For reservations outside the official dates or for
government rates please contact the
hotel directly.
Mention “IEEE RWW 2014” to
receive the negotiated room rate.
Reservation requests received by
the hotel after 24 December 2013
will be accepted on a space and
rate available basis, and the group
rate may not apply. All attendees
booking within the official RWW
room block will receive complimentary self-parking, internet access
in their guest room and health club
access free of charge.
Panel Session - Commercialization of RF Technologies for Medical Applications
Monday 12:00- 13:00
Moderator: Dr. J. C. Chiao, University of Texas
at Arlington
Panelists:
Jessi Johnson, Mira Dry
Arthur Astrin, Astrin Radio
Perry Li, St. Jude Medical
Abstract:
With advances in high frequency electronics and research on the interaction between electromagnetic waves and
tissues, radio frequency technologies bring novel and grounding-breaking features and advantages to medical applications. The inspiring presentations and sparkling discussions in the past Bio-Wireless sessions have indicated
numerous technical challenges to overcome and enormous opportunity in the near future for healthcare applications. The next steps of moving towards commercialization face issues not only in engineering but also in clinical
needs and standards. In this panel, expert panelists will discuss the vision, opportunities, pathways, challenges,
industrial synergy and standards in commercialization of advanced RF technologies to the medical fields.
Panel Session - Emerging PA Breakthrough for
Efficiency and Linearity Enhancement
Monday 19:00-20:30
Organizer: Fred Schindler, RFMD; Robert Caverly, Villanova University
Panelists:
Steve Cripps, Cardiff University;
Marc Franco, RFMD;
Andrei Grebennikov, RF axis;
Jose Carlos Pedro,Aveiro University
Joe Staudinger, Freescale
Abstract:
Efficiency and linearity are typically among the most critical performance characteristics for power amplifiers,
and it is essential to trade-off between them when designing a power-amplifier. In this panel session, emerging
breakthroughs for efficiency and linearity enhancement will be discussed, covering theoretical aspects as well as
technology, novel circuit topologies and architectures for distortion reduction. There will be no formal presentations.
The aim is to provide answers to questions posed by session attendees. The panel of is made up of knowledgeable
experts that will seed the discussion. Attendees are encouraged to participate in the conversation and express their
views. Please bring your questions. All power amplifier types, frequencies and techniques are open for discussion.
11
RWS Session: MO4A
Advanced Antenna
Technologies
Chair: Goutam Chattopadhyay,
NASA - Jet Propulsion Laboratory
A/B
SiRF Session: MO4B
PAWR Session: MO4C
Applications and
Wireless Architectures I
Modeling Advanced
Power Amplifier Systems
RWS Session: MO4D
Advanced Transceiver
Technologies II
Chair: Donald Lie, Texas Tech
University
Chair: Andrei Grebennikov,
Alcatel/Bell Labs Ireland
Co-Chair: Almudena Suarez,
University of Cantabria
Chair: Xin Wang, OmniVision
Technologies, Inc.
Room: Baycliff
15:40
MO4A-1 Realizing Non-Foster
Reactances Using Negative-GroupDelay Networks and Applications to
Antennas
G. Eleftheriades, H. Mirzaei, University
of Toronto, Toronto, Canada
MO4B-1 Wideband Envelope Tracking Power Amplifiers for Wireless
Communications (Invited Paper)
MO4C-1 A Single-Ended Power Amplifier Behavioral Model for AM/AM
and AM/PM Predictions (Invited talk)
L. Larson, D. Kimball, P. Asbeck, Brown
University, Providence, United States
J. C. Pedro, L. C. Nunes, Universidade
de Aveiro, Aveiro, Portugal
MO4D-1 Antenna Integration for SiP
Systems
W. L. De Raedt, S. Brebels, IMEC,
Leuven, Belgium
16:20
MO4A-2 Design of Rectenna Array
Panel Taking into Account Mutual
Coupling for RF Energy Harvesting
MO4B-2 An Inductor-less LTE Receiver Using an 8-Path Filter for TX
Leakage Suppression
MO4C-2 A Semi-Physical Power Amplifier Behavioral Model Capable of
Predicting Gain Expansion Effects
H. Kamoda, M. Hanazawa, S. Kitazawa,
H. Ban, N. Kukutsu, K. Kobayashi, ATR
Wave Engineering Laboratories, Seikacho, Soraku-gun, Japan
A. Elmaghraby, G. Fischer, R. Weigel,
T. Ussmueller, University of ErlangenNuremberg, Erlangen, Germany
S. Glock1, J. Rascher1, B. Sogl2, T.
Ussmueller1, J. Mueller2, G. Fischer1, R.
Weigel1, 1Friedrich-Alexander-University
of Erlangen-Nuremberg, Erlangen, Germany, 2Intel Mobile Communications,
Neubiberg, Germany
MO4A-3 Variable Beamwidth Shorted
Patch Antenna Array for Indoor
Positioning
MO4B-3 A Novel THz Enhanced
Dipole Antenna Using Second Order
High Impedance Surfaces Resonance for MM Imaging and Sensing
MO4D-2 A 21.1 mW 6.2 dB NF 77~81
GHz CMOS Low-Noise Amplifier with
13.5±0.5 dB S21 and Excellent Input
and Output Matching for Automotive
Radars
Y. Lin, G. Lee, C. Wang, C. Chen, National Chi Nan University, Puli, Taiwan
16:40
H. Matsumoto, M. Tanikawara, T.
Kohiyama, Hitachi Industrial Equipment
Systems Co., Ltd., Chiyoda-ku, Japan
MO4C-3 Digital Predistortion Based
on Feedback Iteration for Concurrent
Dual-Band Power Amplifier
Y. Li, K. Chen, Z. Hu, X. Wang, L. Ma,
University of Electronic Science & Technology of China, Chengdu, China
G. S. Mikhail1, Y. Quéré2, C. Quendo2,
C. Person1, 1Télécom Bretagne, Brest,
France, 2Université de Bretagne Occidentale, Brest, France
MO4D-3 3D-Integrated, Low-Height,
Small Module Design Techniques
for 4.48 GHz, 560 MHz-Bandwidth
TransferJet(TM) Transceiver
K. Agawa, I. Seto, A. Happoya, Y. Iida,
Y. Imaizumi, M. Okano, D. Suzuki, Y.
Sato, M. Iwanaga, K. Sato, S. Arai, N.
Uchida, K. Ryugo, D. Miyashita, R. Fujimoto, Y. Unekawa, Toshiba Corporation, Kawasaki, Japan
17:00
MO4A-4 A High Efficiency, Electrically-Small, 3-D Machined-Substrate
Antenna Fabricated with Fused Deposition Modeling and 3-D Printing
MO4C-4 A Simple Characterization of
Power Spectral Density for Nonlinearly Amplified OFDM Signals
T. Lee, H. Ochiai, Yokohama National
University, Yokohama, Japan
I. T. Nassar1, H. Tsang2,3, K. Church3,2,
T. Weller1, 1University of South Florida,
Tampa, United States, 2University of
Texas El paso, El Paso, United States,
3
Sciperio, Orlando, United States
12
MO4D-4 Compact 120-140 GHz Radar
Tx/Rx Sensors with On-Chip Antenna
S. Yuan, A. Strodl, V. Valenta, A. Trasser, H. Schumacher, Ulm University, Ulm,
Germany
TUESDAY, 21 JANUARY 2014
TU2 Plenary Session
Dr. Peter H. Siegel
Caltech/JPL
Time: 10:10-11:50
Room: Grand Pacific Ballroom C, D,
E and F
Title:
THz Imaging: What You See and What
you Don’t
Abstract:
THz technology has developed to the point at which
we can now begin to use customized-off-the-shelf
components to construct near-real time imagers.
However traditional imaging at these wavelengths
is extremely challenging. Most materials, and the
atmosphere itself, have extremely high loss, limiting
transmission measurements. Contrast from scattered
energy is generally low, as the frequency and amplitude
sensitivity to reflected power from most environmental
objects is poor. Thermal contrast is limited by high
background temperatures (generally above the energy
range of THz signals). However, as advances in
solid-state source and receiver technology push ever
upwards in frequency, more and more proposals are
aimed at using this new found capability for active and
passive imaging. It turns out that there are at least a few
tricks that one can play to help integrate millimeter and
submillimeter wavelength transceivers into traditional
imaging applications. One of the first application areas
to take advantage is undergarment threat detection.
This talk will discuss current techniques in active THz
scanning, both to introduce the phenomenology of what
we see reflected off the body, as well as the hidden
phenomenology of what THz radiation may be stimulating in the body.
RWS Session: TU1B
SiRF Session: TU1C
Transceivers and
Front-end Technologies
SOC and SiP
Transmitter and Receiver
Chair: Wasif T. Khan, Georgia
Tech
Co-Chair: Ahmet C. Ulusoy,
Georgia Tech
Chair: Pierre Blondy, University
of Limoges
A/B
Room: Baycliff
BioWireleSS Session: TU1D
Wireless Technologies
for Biosignals and
Modeling in Medical
Chair: Dominique Schreurs, KU
Leuven
Co-Chair: Mohammad-Reza
Tofighi, Penn State University
Room: Cardiff
08:00
TU1B-1 Design of Low Phase-Noise
Voltage-Controlled Oscillator Using
Tunable Evanescent-Mode Cavity
TU1C-1 Latest Development of
Near-field Communication (NFC) on
Handsets Application (Invited Paper)
Y. Liu, A. Anand, X. Liu, University of
California Davis, Davis, United States
M. Wiklund, M. Mofidi, R. Gaethke, A.
Wong, M. Kohlmann, Qualcomm, San
Jose, United States
TU1D-1 Monitoring Respiratory Rate
and Pattern in Adult and Infant via
Contactless Detection of Thorax and
Abdomen Movements through SoC
UWB Pulse Radar Sensor
D. Zito1,2, D. Pepe1, 1Tyndall National
Institute, Cork, Ireland, 2University College Cork, Cork, Ireland
08:20
08:20
TU1B-2 MMIC-Based Module-Level
Frequency Generation for E-Band
Communication Systems
TU1D-2 PXI-based Non-Contact Vital
Sign Detection System
S. Banerjee, C. Gu, C. Li, Texas Tech
University, Lubbock, United States
U. J. Lewark1, J. Antes2, M. Kuri3, R. Henneberger4, A. Tessmann3, S. Wagner3, A.
Leuther3, T. Zwick1, I. Kallfass2, 1Karlsruhe
Institute of Technology (KIT), Karlsruhe,
Germany, 2University of Stuttgart, Stuttgart,
Germany, 3Fraunhofer Institute of Applied
Solid State Physics (IAF), Freiburg, Germany,
4
Radiometer Physics GmbH (RPG), Meckenheim, Germany
08:40
TU1B-3 A Simple Closed-Form
Analysis of Clapp Oscillator Output
Power Using a Novel Quasi-Linear
Transistor Model
O. Lunden, K. Konttinen, M. Hasani,
Tampere University of Technology,
Tampere, Finland
TU1C-2 9.9 mA 5-6 GHz CMOS
Sub-Harmonic Direct-Conversion
Receiver Using Deep N-Well BJT
W. Chang1, C. Meng1, J. Syu1, C.
Wang1, G. Huang2, 1National Chiao
Tung University, Hsinchu, Taiwan,
2
National Nano Device Laboratories,
Hsinchu, Taiwan
TU1D-3 Movement-Immune Respiration Monitoring Using Automatic
DC-Correction Algorithm for CW
Doppler Radar System
Y. Li1, G. Wang1, C. Gu2, C. Li1, 1Texas
Tech University, Lubbock, United
States, 2MaxLinear Inc, Irvine, United
States
Plenary Speaker:
09:00
Dr. Peter Siegel, Caltech/JPL
Peter H. Siegel (BA Colgate 1976, PhD Columbia,
1983, IEEE member since 1975) has held appointments as Faculty Associate in Electrical Engineering
and Senior Scientist in Biology at Caltech and Senior
Research Scientist at the NASA Jet Propulsion Laboratory. At JPL, he founded and led for 20 years, the
Submillimeter Wave Advanced Technology (SWAT)
team, a group of 20+ scientists and engineers developing THz technology for NASA’s near and long term
space missions. This included delivering key components for four major satellite missions and leading more
than 75 smaller R&D programs for NASA and the US
department of defence. At Caltech, Dr. Siegel has been
involved in new biological and medical applications of
THz, especially low power effects on neurons and most
recently, millimetre-wave monitoring of blood chemistry.
Among many other functions, he serves as founding
Editor-in-Chief of the IEEE Transactions on Terahertz
Science and Technology and the General Secretary
of the International Society of Infrared, Millimeter, and
Terahertz Waves, the world’s largest society devoted
exclusively to THz science and technology, which he
founded in 2009. He is also an IEEE Fellow, and has
served as an IEEE Distinguished lecturer, vice-chair
and chair of IEEE MTTS Committee 4 – THz Technology, and an ad-hoc member of the MTTS AdCom. Dr.
Siegel has published more than 300 articles on THz
components and technology and has given more than
100 invited talks on this subject throughout his career
of 37 years in THz.
TU1B-4 A DC to 2 GHz Downconverter with Image Rejection and
High Blocker Tolerance for Cognitive Radios
TU1C-3 A Low-Power, Low-Noise,
Highly-Linear Receiver for 122 GHz
Applications in a SiGe BiCMOS
Technology
A. Fahim, Semtech Corporation, Irvine,
United States
A. Chakraborty1,3, S. Trotta1, K.
Aufinger2, R. Lachner2, R. Weigel3,
1
Infineon Technologies AG, Neubiberg,
Germany, 2Infineon Technologies AG,
Neubiberg, Germany, 3Friedrich-Alexander-Universität Erlangen-Nürnberg,
Erlangen, Germany
09:20
TU1C-4 A 90 nm CMOS Multi-standard GNSS Receiver Front-end
C. Cheng, Y. E. Chen, National Taiwan
University, Taipei, Taiwan
13
TU1D-4 High-Amplitude Motion
Cancellation Method for Handheld
UWB Doppler Radar
L. Ren1, Y. Koo1, Y. Wang3, G. To2, M.
Mahfouz2, A. E. Fathy1, 1University of
Tennessee-EECS, Knoxville, United
States, 2University of TennesseeMABE, Knoxville, United States, 3RF
Micro Devices, Billerica, United States
Panel Session - THz Wireless Communication
Moderator: Dr. Frank Chang,
UCLA
Panelists:
Ken Cooper, JPL
Peter Burke, UC Irvine
Peter Siegel, JPL
Richard Lai, Northrop Grumman
Q. Jane Gu, UC Davis
Mona Jarrahi, UCLA
A/B
Tuesday 12:00-13:00
Abstract:
The Terahertz (THz) band is a frontier area for research in science and technology. This band from 300 GHz
to 3000 GHz lies above the frequency range of traditional electronics, but below the range of optical and infrared regions. Many research and defense institutions have already demonstrated THz sensing and imaging
techniques, but with the recent advancement in CMOS and solid-state devices researchers around the world
are now discussing the future of THz communication systems for commercial applications. Standards bodies
that address THz communications have also started to form.
However, the challenges for THz communication are huge. In addition to the need for a THz source, an appropriate receiver system, and OTA testing, a solid understanding of electromagnetic propagation and absorption/
diffraction characteristics of materials and the environment is absolutely essential. The necessary investment
of time and money, the development of expensive hardware, and the creation of testing methodologies can all
create bottlenecks in implementation of THz technology for commercial applications.
In an effort to discuss the challenges and prospects for THz technology, we have assembled a panel of distinguished researchers.
Demo Track Presentations
Tuesday, 15:00- 17:00
Room: Newport Coast
Ballroom 1-5
1-Development of Plough-able RFID Sensor Network Systems for Precision Agriculture
C. Wang, D. George, P. R. Green,University of Manchester, Manchester, United Kingdom
2-A 3D-Integrated, Low-Height, Small Module for 4.48GHz, 560MHz-Bandwidth TranferJet (TM) Transceiver
K. Agawa, I. Seto, A. Happoya, Y. Iida, T. Adachi, Toshiba Corporation, Kawasaki, Japan
3-Low-cost single channel F-band FMCW radar with compact on-chip antennas
S. Yuan, V. Valenta, H. Schumacher, Ulm University, Ulm, Germany
4-Demonstration of Advanced Tunable RF Filters and Oscillators
Y. Liu, A. Anand, X. Liu, University of California, Davis, Davis, United States
5-PXI-based Non-contact Vital Sign Detection System for Human Healthcare and Structural Health Monitoring Applications
S. Banerjee, C. Gu, C. Li, Texas Tech University, Lubbock, United States
6-Data Compression Code for Fiber Optics Applications
R. Caputo1, G. Figueiredo1, M. Silveira2, 1Pulse Perfect Corporation, Geneva, United States, 2Federal University of ABC, Santo Andre, United States
Wireless Apps
Tuesday, 15:30- 17:30
Room: Newport Coast
Ballroom 1-5
Comapany
Time Slot
ARC Technologies
13:30-14:00 Tentative
Title
Virginia Diodes
14:00-14:30 High Performance Test and Mesurement Solutions for mm-wave Communications
AWR Corportation
14:30-15:00 An Integrated Design thrue Test Framework for WLAN 802.11ac Components & Systems
Sonnet
15:00-15:30 Visualization of Substrate Currents in Silicon Under Spiral Indcutors
MOSIS
15:30-16:00 Getting your IC Designs from Concept to Production Quickly and Cost Effectively
Maury Microwave
16:00-16:30 Mixed-Siganl Active Load Pull- The Fast Track to 3G/4G Amplifier Design
National Instruments 16:30-17:00 Basics of Testing Envelope Tracking Power Amplifiers
Roger’s Gardens
Newport Theatre
14
Industry Exhibits
Room:Newport Ballroom
1-5
Exhibitor
Booth
AWR Corporation
1
CST of America
9
Monday 20 January
1:30pm - 5:30pm and
ARC Technologies
10
Maury Microwave
13
Tuesday 21 January
9am - 5:30pm
Microwave Journal
MOSIS
8
National Instruments
2
Sonnet Software,Inc.
12
Quick-Pak
3
Virginia Diodes, Inc.
5
West Bond Inc
6
Mesuro Ltd.
4
Nuhertz Technologies
14
Newport Coast Ballroom, Marriot Hotel
15
RWS Session: TU3A
Novel Passive
Antennas
RWS Session: TU3B
SiRF Session: TU3C
Propagation Channel
Modeling and
Utilization
Applications and
Wireless Architectures II
Chair: Glauco Fontgalland,
Universidade Federal de
Campina Grande
C/D
A/B
R. V. Ram Krishna1, R. Kumar2,
1
DIAT(Deemed University), Pune,
India, 2ARDE, Pune, India
TU3B-1 Performance Analysis of
Cognitive Radio Networks over
Kappa-mu Fading Channel with
Noise Uncertainty
Chair: Dietmar Kissinger, FAU
Erlangen-Nuremberg
Co-Chair: Mohamed Mahfouz,
University of Tennessee Knoxville
Room: Baycliff
Room: Cardiff
TU3C-1 A 80-95 GHz Direct Quadrature Modulator in SiGe Technology
M. Abbasi1, S. Carpenter1, H. Zirath1,
F. Dielacher2, 1Chalmers University of
Technology, Goteborg, Sweden, 2Infineon Technologies, Villach, Austria
F. von Glehn, U. S. Dias, University of
Brasilia, Brasilia, Brazil
PAN, BAN, Energy
Scavenging, and Remote
Patient Monitoring
Chair: Hasan Sharifi, HRL Laboratories
13:30
TU3A-1 A CPW Fed Rectangular
Slot Antenna for Wideband Circular
Polarization
TU3D-1 Electrophysiologic Monitoring and Minimally Invasive Neurosurgery: Opportunities for Medical
Engineering
C. Chen, University of California San
Diego, San Diego, United States
13:50
TU3C-2 Integrated 60 GHz CMOS
Variable-Gain Low-Noise Amplifier and Full 360° Phase Shifter for
Phased-Array RF Receiving System
TU3A-2 Design of CPW Feed Printed
Monopole Antenna for Dual Polarization
TU3B-2 Modeling the Influence of
Wall Roughness on Tunnel Propagation
R. V. Ram Krishna1, R. Kumar2,
1
DIAT(Deemed University), Pune,
India, 2ARDE, Pune, India
C. Zhou, J. Waynert, National Institute
for Occupational Safety and Health,
Pittsburgh, United States
TU3A-3 Miniaturized Tunable Conical Helix Antenna
TU3B-3 Path Loss Evaluation for
Mobile-to-Mobile Wireless Channell
TU3C-3 An X-band 6-Bit Active
Phase Shifter
S. Zhu1,2, T. Ghazaany1,2, R. AbdAlhameed1, S. Jones1, J. Noras1, T.
Suggett2, S. Marker2, 1University of
Bradford, Bradford, United Kingdom,
2
Seven Technologies Group-Datong,
Leeds, United Kingdom
S. Zhu1,2, T. Ghazaany1,2, S. Jones1, R.
Abd-Alhameed1, J. Noras1, A. Merrell2,
J. Wilson2, 1University of Bradford,
Bradford, United Kingdom, 2Seven
Technologies Group-Datong, Leeds,
United Kingdom
K. Kibaroglu, E. Ozeren, I. Kalyoncu,
C. Caliskan, Y. Gurbuz, Sabanci University, Istanbul, Turkey
TU3A-4 Slotted Microstrip Patch
Antenna with Embedded Feed
TU3B-4 Wideband MIMO Channel
Sounding Setup for 2.4 GHz ISM
Band
C. Yu, P. Lo, J. Lyu, H. Kuo, H. Chuang, National Cheng Kung University,
Institute of Computer and Communication Engineering, Tainan, Taiwan
TU3D-2 SAR Evaluation of Ultra
Wideband (UWB) Textile Antennas
P. Soh1,3, G. Vandenbosch1, F. Wee3,
M. Mercuri1, A. van den Bosch2, M.
Martinez-Vazquez2, D. Schreurs1,
1
KU Leuven, Leuven, Belgium, 2IMST
GmbH, Kamp-Lintfort, Germany, 3Universiti Malaysia Perlis, Arau, Malaysia
14:10
S. S. Menon, P. Deo, D. MirshekarSyahkal, University of Essex, Colchester, United Kingdom
14:30
TU3C-4 An Inductorless RC-based
Quadrature Phase Generator and Its
Application to Vector-Sum Phase
Shifter
F. Talebi, T. G. Pratt, University of
Notre Dame, Notre Dame, United
States
T. Yan, W. Lin, C. Kuo, National ChiaoTung University, Hsinchu, Taiwan
TU3D-3 Design of Wireless WaistMounted Vital Sensor Node for
Athletes -- Performance Evaluation of
Microcontrollers Suitable for Signal
Processing of ECG Signal at Waist
Part
S. Okamoto1, T. Tsujioka1, S. Hara1, H.
Nakamura2, T. Kawabata3, K. Watanabe4, M. Ise4, N. Arime4, H. Okuhata4,
1
Osaka City University (School of Engg.),
Osaka, Japan, 2Osaka City University
(School of Medicine), Osaka, Japan,
3
Kansai University, Osaka, Japan, 4Synthesis Corporation, Osaka, Japan
TU3D-4 A Mobile and Wireless
Approach for Cardiac Output
Monitoring
D. Teichmann, T. Bartelt, S. Leonhardt,
M. Walter, RWTH Aachen University,
Aachen, Germany
Exhibits/Wireless Apps/Demo
JOINT RWW BANQUET
Tuesday Evening, 21 January 2014 from 18:00-21:00
Room: Baycliff
Industry Exhibits: Monday 20 January 13:30pm 5:30pm and Tuesday 21 January 9am - 17:30pm
Join your friends, co-workers and fellow researchers in an
informal setting of lively discussion, dinner and wine. In addition, see the student paper award winners from the RWS,
PAWR, WiSNet, BioWireless and SiRF receive their awards.
WirelessApps Talks: Tuesday 21 January 13:30pm 17:30pm
Demo Session: Tuesday 21 January 13:30pm 17:30pm
16
RWS Session: TU5A
MIMO Signal Processing
and Smart Antennas
RWS Session: TU5B
RWS Session: TU5C
Late News
Late News
Wireless Position and
Location in Medicine
Chair: Hideki Ochiai, Yokohama
National University
Co-Chair:Alessandra Costanzo,
University of Bologna
Chair: Kevin Chuang, MIT Lincoln Laboratory
Chair: Cagri Ulusoy, Georgia
Institute of Technology
Chair: Changzhi Li, Texas Tech
Co-Chair: Michael Kuhn, University of Tennessee Knoxville
C/D
A/B
Room: Baycliff
Room: Cardiff
TU5A-1 Nonlinear/Electromagnetic
Approach for Time-Modulated Array
Simulation
TU5B-1 A 5-5.8 GHz Fully-Integrated
CMOS PA for WLAN Applications
16:00
D. Masotti1, P. Francia1, A. Costanzo2,
V. Rizzoli1, 1University of Bologna,
Bologna, Italy, 2University of Bologna,
Cesena, Italy
J. Tsai, H. Ou-Yang, National Taiwan
Normal University, Taipei, Taiwan
TU5C-1 Measurement Setup for
Linear Characterization of a MixedSignal SoC Wideband Receiver
TU5D-1 Asynchronous Subthreshold CMOS Event Detector for Wireless BAN Sensor Nodes
P. M. Cruz, D. C. Ribeiro, N. B.
Carvalho, IT-Universidade de Aveiro,
Aveiro, Portugal
F. Grimminger1, G. Kowalczyk2, H.
Unterassinger3, A. Schwarzmeier1, G.
Fischer1, R. Weigel1, D. Kissinger1,
1
University of Erlangen-Nuremberg, Erlangen, Germany, 2Infineon Technologies Austria AG, Graz, Austria, 3Graz
University of Technology, Graz, Austria
16:20
TU5A-2 Semi-Blind Interference
Alignment over Correlated Wireless
Channels
TU5B-2 Advanced Transmitters with
Combined Crest Factor Reduction
and Digital Predistortion Techniques
TU5C-2 Recent Results of High-Resolution Wireless Indoor Positioning
Based on IEEE 802.11ac
TU5D-2 Design and Implementation
of Wearable RFID Tag for Real-Time
Ubiquitous Medical Care
M. Takai1, K. Ishibashi2, T. Wada1, 1Shizuoka University, Hamamatsu, Japan,
2
The University of Electro-Communications, Chofu, Japan
A. Farabegoli1,2, B. Sogl1, J. Mueller1,
R. Weigel2, 1Intel Mobile Communications GmbH, Neubiberg, Germany,
2Friedrich-Alexander-Universität Erlangen-Nürnbergr, Erlangen, Germany
A. N. Gaber, A. Omar, University of
Magdeburg, Magdeburg, Germany
Y. Chen1, H. Sun1, R. Chen2, 1National
Tsing Hua University, Hsinchu, Taiwan,
2
China University of Technology, Hsinchu, Taiwan
TU5A-3 A Rapid Direction of Arrival
Estimation Procedure for Adaptive Array Antennas Covered by a
Shaped Dielectric Lens
TU5B-3 Three-Way Doherty Power
Ampliﬁer for Efficient Amplification
of Wideband Signals with Extended
PAPR
TU5C-3 A Radio System Design Tool
for Forward Error Corrections in
Wireless CSMA Networks: Analysis
and Economics
R. Sankaranarayanan, D. S. Badri, R
V College of Engineering, Bangalore,
India
H. Golestaneh, F. Arfaei Malekzadeh,
S. Boumaiza, University of Waterloo,
Waterloo, Canada
H. Zhu, S. Bajekal, V. Lakamraju, B.
Murray, United Technologies Research
Center, EH, United States
16:40
TU5A-4 Effect of PAPR Reduction
to BS Cooperation MIMO Systems
under Multi-Cell Environment
17:00
R. Myoenzono, O. Takyu, F. Sasamori,
S. Handa, Shinshu University, Nagano,
Japan
TU5D-3 A Low-Power Fall Detection
and Activity Monitoring System for
Nursing Facilities and Hospitals
A. Schwarzmeier, R. Weigel, G. Fischer, D. Kissinger, University of ErlangenNuremberg, Erlangen, Germany
TU5D-4 Detection of Trapped
Survivors Using 270/400 MHz Dualfrequency IR-UWB Radar based on
Time Division Multiplexing
Z. Li, H. Lv, Y. Zhang, G. Lu, S. Li,
X. Jing, J. Wang, The Fourth Military
Medical University, Xi’an, China
Golf Course Near Marriot Hotel
17
WiSNet Session: WE1A
Wednesday, 22 JANUARY 2014
PAWR Session: WE1C
RWW Session: WE1B
Six-Port and Multi-Port
Technology
Passive Components
and Packaging I
Chair: Alex Koelpin, University
Erlangen-Nuremberg
Co-Chair: Tuami Lasri, IEMN,
University of Lille
Chair: Roberto Gomez Garcia,
University of Alcala
Co-Chair: Dariush MirshekarSyahkal, University of Essex
C/D
A/B
WE1A-1 Six-Port Technology for
Millimeter-wave Radar and Imaging
Applications
WE1B-1 R10 Time-Varying Transmission Lines - A new Pathway to
a non-Reciprocal and Intelligent RF
Front-End (Invited Paper)
Power Amplifier
BioWireleSS Session: WE1D
Micro-Sensors and
In-vivo Microsystems
Chair: Chiennan Kuo, National
Chiao Tung University
Chair: Jung-Chih Chiao, University of Texas Arlington
Co-Chair: Rizwan Bashirullah,
University of Florida
Room: Baycliff
Room: Cardiff
08:00
K. Haddadi, T. Lasri, Institute of
Electronics, Microelectronics and
Nanotechnology (IEMN), Villeneuve
d’Ascq, France
WE1C-1 RF Performance Limits of
Ballistic Si Field-Effect Transistors
(Invited Paper)
A. Pan, C. Chui, University of California,
Los Angeles, Los Angeles, United
States
Y. Wang, University of California at Los
Angeles, Los Angeles, United States
Invited Paper
WE1D-1 A Power Consumption
Optimized Reflective In-ear Pulse
Oximeter for Mobile Health Monitoring
B. Venema, M. S. Wolke, V. Blazek, S.
Leonhardt, RWTH Aachen University,
Aachen, Germany
08:20
08:20
WE1A-2 A Tank Level Sensor Based
on Six-Port Technique Comprising a
quasi-TEM Waveguide
WE1D-2 Optimal Design of Energy
Efficient Inductive Links for Powering Implanted Devices
S. Mann, S. Lindner, F. Barbon, S.
Linz, A. Talai, R. Weigel, A. Koelpin,
Friedrich-Alexander University Erlangen-Nürnberg, Erlangen, Germany
F. L. Cabrera, F. Rangel de Sousa, Federal University of Santa Catarina, Florianopolis, Brazil
08:40
WE1A-3 Butler Matrix Based Sixport Passive Junction
A. Moscoso-Mártir, J. Ávila-Ruiz, E.
Durán-Valdeiglesias, L. Moreno-Pozas,
I. Molina-Fernández, A. Ortega-Moñux,
J. de-Oliva-Rubio, Málaga University,
ETSI Telecomunicación, Málaga, Spain
WE1B-2 Symmetric Coupled Composite Right-/Left-Handed Transmission Line with Dual-Mode Balanced
Filter Characteristics
WE1C-2 A 28 GHz Class-J Power
Amplifier with 18 dBm Output Power
and 35% peak PAE in 120 nm SiGe
BiCMOS
WE1D-3 A Low Switching Frequency AC-DC Boost Converter
for Wireless Powered Miniaturized
Implants
Y. Kim1, S. Sim1, Y. Yoon2, 1Kumoh National Institute of Technology, Gyungbuk, Republic of Korea, 2Kwandong
University, Gangwon do, Republic of
Korea
A. Sarkar, B. Floyd, North Carolina
H. Jiang1, B. Lariviere1, J. Zhang1, R.
Fechter2, M. Harrison2, S. Roy3, 1San
Francisco State University, San Francisco,
United States, 2University of California San
Francisco, San Francisco, United States,
3
University of California San Francisco, San
Francisco, United States
09:00
WE1A-4 Water Temperature Monitoring by Microwave Six-Port Interferometry at 24 GHz
WE1B-3 A Tunable Directional
Coupler with A Wide Tuning Range
of Coupling Ratios
WE1C-3 An X- to Ka-Band Fully-Integrated Stacked Power Amplifier in 45
nm CMOS SOI Technology
WE1D-4 Radiation Efficiency of
Planar Implantable Antennas at ISM
Band
A. Talai, S. Mann, R. Weigel, A.
Koelpin, Friedrich-Alexander-University Erlangen-Nuremberg, Erlangen,
Germany
M. Zhou, J. Shao, B. Arigong, H. Ren,
R. Zhou, H. Zhang, University of North
Texas, Denton, United States
S. R. Helmi, J. Chen, S. Mohammadi,
Purdue University, West Lafayette,
United States
M. Tofighi1, S. Huang2, 1Pennsylvania
State University, Harrisburg, Middletown, United States, 2Drexel University,
Philadelphia, United States
WE1A-5 Fast In-Situ Diode Detector
Characterization for Six-Port Interferometer Receivers
WE1B-4 Characterization of Liquid
Crystal Polymer (LCP) From 110
GHz to 170 GHz
F. Barbon, S. Lindner, S. Mann, S.
Linz, R. Weigel, A. Koelpin, University
of Erlangen-Nuremberg, Erlangen,
Germany
W. T. Khan, C. A. Donado Morcillo, A.
C. Ulusoy, J. Papapolymerou, Georgia
States
09:20
WE1C-4 A 69-81 GHz Power Amplifier Using 90 nm CMOS Technology
J. Tsai, R. Chang, J. Lin, National Taiwan Normal University, Taipei, Taiwan
18
WisNet Session: WE2A
RWW Session: WE2B
SiRF Session: WE2C
BioWireleSS Session: WE2D
Passive Components and
Packaging II
Technology, Devices, and
Modeling
Chair: Manos Tentzeris, Georgia
Tech
Co-Chair: Maurizio Bozzi, University of Pavia
Chair: Rashaunda Henderson,
University of Texas at Dallas
Co-Chair: Roberto Gomez Garcia, University of Alcala
Chair: Mehmet Kaynak, IHP
Microelectronics
Co-Chair: Julio Costa, RFMD
Microwaves in Biological
Applications and
Interaction with
Biological Tissues
C/D
A/B
Room: Baycliff
Advanced Localization
and Sensing
Technologies
Chair: Katia Grenier,LAAS CNRS
Co-Chair: Dietmar Kissinger, FAU
Erlangen-Nuremberg
Room: Cardiff
10:10
WE2A-1 Advanced Multilayer Photoimaged Substrate Integrated Waveguides and RF Front-End for Emerging mm-wave Wireless Applications
K. K. Samanta1,2, 1Milmega Ltd., Ryde,
United Kingdom, 2University of Leeds,
WE2B-1 Frequency-Asymmetrical
Signal-Interference Microwave Planar
Filters Based on Stub-Loaded Transversal Filtering Sections (Invited
Paper)
WE2C-1 A TCAD-based Roadmap for
High-speed SiGe HBTs
R. Gomez-Garcia, R. Loeches-Sanchez,
M. Sanchez-Soriano, University of
Alcala, Madrid, Spain
M. Schroter1,2, T. Rosenbaum1, S. P.
Voinigescu3, P. Chevalier4, 1Technical
University Dresden, Dresden, Germany, 2University of California San Diego,
La Jolla, United States, 3University of
Toronto, Toronto, Canada, 4STMicroelectronics, Crolles, France
10:30
WE2D-1 Modeling and Characterization of a BiCMOS Embedded
Microfluidic Platform for Biosensing
Applications
C. B. Kaynak, M. Kaynak, M. Wietstruck, S. Marschmeyer, P. Kulse, H.
Silz, A. Kruger, R. Barth, K. Schmalz,
B. Tillack, IHP GmbH, Frankfurt (Oder),
Germany
10:30
WE2A-2 Review on Microwave/
Millimeter-Wave Systems for Vital
Sign Detection
WE2C-2 Modeling and Optimization
of BiCMOS Embedded ThroughSilicon Vias for RF-Grounding
H. Wang, J. Cheng, J. Kao, T. Huang,
National Taiwan University, Taipei,
Taiwan
M. Wietstruck1, M. Kaynak1, S.
Marschmeyer1, C. Wipf1, I. Tekin2, K.
Zoschke3, B. Tillack1,4, 1IHP, Frankfurt
(Oder), Germany, 2Sabanci University,
Istanbul, Turkey, 3Fraunhofer IZM, Berlin, Germany, 4Technische Universität
Berlin, Berlin, Germany
10:50
WE2A-3 Compact, Mobile, Low
Power UWB System for ThroughWall Imaging
WE2B-2 Tunable Liquid-Crystal
Millimeter-wave Bandpass Filter Using Periodical Structure
WE2C-3 An Investigation of the
Temperature Dependent Linearity
of Weakly-Saturated, ElectricallyMatched SiGe NPN and PNP HBTs
S. Magoon1, A. E. Fathy1, C. Thajudeen2, A. Hoorfar2, 1University of
Tennessee, Knoxville, United States,
2
Villanova University, Villanova, United
States
M. Yazdanpanahi, P. Deo, D. Mirshekar-Syahkal, University of Essex,
Colchester, United Kingdom
WE2A-4 A SAW Delay Line Based
Dual-Band Low-Power Tag for Precise Time-of-Arrival Ranging
WE2B-3 Transmission Line Replacements for a Lumped Element Reflectionless Filter
WE2C-4 Integration of a 50 V BVCEO
SiGe:C HBT into a 0.25 μm SiGe:C
BiCMOS Platform
M. Chaabane, E. M. Beibl, Technische Universität München , Munich,
Germany
C. Jackson, Northrop Grumman Areospace Systems, Redondo Beach, United States
R. Sorge, J. Schmidt, C. Wipf, K.
Schulz, R. Pliquett, R. Barth, IHP,
Frankfurt(Oder), Germany
WE2A-5 Mobile-phone Indoor Localization Based on Microwave Identification Using Web-access Time
WE2B-4 A Compact Three-Bit Reconfigurable Resonator Consisting
of Lumped Elements
WE2C-5 The Analysis of TransitTime Effect of Bipolar Base Collector
Junction Breakdown
M. Yamamoto1,2, T. Ohtsuki2, H.
Utsumi3, N. Furukawa1, 1Hitachi, Ltd.,
Tokyo, Japan, 2Keio University, Yokohama, Japan, 3Hitachi Solutions East
Japan, Ltd., Sendai, Japan
R. Kobayashi, T. Kato, Y. Yamao, The
University of Electro-Comunications,
Chofu-shi, Japan
X. Bi1, D. Trombley2, T. Krakowski1, D.
Weiser2, 1Texas Instruments, Santa
Clara, United States, 2Texas Instruments, Dallas, United States
S. Jung1, P. Song1, I. Song1, R. L.
Schmid1, J. D. Cressler1, J. A. Babcock2, 1Georgia Institute of Technology,
Atlanta, United States, 2Texas Instruments, Santa Clara, United States
WE2D-2 Radio Frequency Detection
and Analysis of Synthetic Particles
X. Hu1,3, G. Yu2, J. Sun3, D. Moline3, P.
Wang3, 1Ohio State University, Columbus, United States, 2University of Findlay , Findlay, United States, 3Clemson
University, Clemson, United States
11:10
WE2D-3 An Inexpensive BacksideSensing Coplanar Waveguide Sensor for Characterization of Liquids
and Solids up to 40 GHz
S. Liu1, I. Ocket2,1, B. Nauwelaers1,
D. Schreurs1, 1University of Leuven,
Heverlee, Belgium, 2Interuniversity
Microelectronics Center, Heverlee,
Belgium
11:30
19
WE2D-4 A Microstrip Resonant
Biosensor for Aqueous Glucose
Detection in Microfluidic Medical
Applications
U. Schwerthoeffer, C. Warter, R.
Weigel, D. Kissinger, University of
Erlangen-Nuremberg, Erlangen,
Germany
WiSNET Session: WE3A
RWS Session: WE3B
RWS Session: WE3C
Novel Sensors and
Sensor Components
Software Defined Radios
and Cognitive Radios
Chair: Christian Damm, Technical University Darmstadt
Co-Chair: Kamal Samanta,
Milmega/Teseq Ltd.
Chair: Abbas Omar, The University of Akron
Chair: Kevin Chuang, MIT Lincoln Laboratory
C/D
A/B
Room: Baycliff
WE3A-1 Optimized Design of Multiband and Solar Rectennas
WE3B-1 Adaptive RF Canceller for
Transmit-Receive Isolation Improvement
Late News
WiSNET Session: WE3D
Insight in Sensor
Network Architectures
and System Design
Chair: Rahul Khanna, Intel
Co-Chair: Huei Wang, National
Taiwan University
Room: Cardiff
13:30
K. Niotaki1, S. Kim2, F. Giuppi1, A. Collado1, A. Georgiadis1, M. M. Tentzeris2,
1
CTTC, Castelldefels, Spain, 2Georgia
States
WE3C-1 Phase Noise Reduction and
Spurious Suppression in Microwave
Oscillators Utilizing Self-Injection
Loops
K. E. Kolodziej, J. G. McMichael, B. T.
Perry, MIT Lincoln Laboratory, Lexington, United States
L. Zhang1, A. K. Poddar2, U. L. Rohde2,
A. S. Daryoush1, 1Drexel University,
Philadelphia, United States, 2Synergy
Microwave Copr., Paterson, United
States
WE3D-1 Broadcast of Things – A
Thought Experiment
M. Hartmann1, H. Tröger1, G. Kilian2,
J. Robert1, T. Nowak1, A. Heuberger1,
1
Friedrich-Alexander-Universität Erlangen-Nürnberg, Erlangen, Germany,
2
Fraunhofer Institute for Integrated
Circuits, Erlangen, Germany
13:50
WE3A-2 Wireless Capacitive Pressure Sensor Operating up to 400
°C from 0 to 100 psi Utilizing Power
Scavenging
M. C. Scardelletti , G. E. Ponchak , K.
Harsh2, J. A. Mackey1, R. D. Meredith1, C. A.
Zorman3, G. M. Beheim1, F. W. Dynys1, G.
W. Hunter1, 1NASA Glenn Research Center,
Cleveland, United States, 2Sporian Microsystems Inc., Lafayette, United States, 3Case
Western Reserve University, Cleveland,
United States
1
1
WE3C-2 Optimized Design of
Harmonic-Injection Dividers
WE3B-2 Energy Efficiency of Cooperative Cognitive Radio Network with
Outage Constraints
F. Ramirez, A. Suarez, University of
Cantabria, Santander, Spain
M. Naeem, K. Illanko , A. Karmokar, A.
Anpalagan, M. Jaseemuddin, Ryerson
University, Toronto, Canada
WE3D-2 Communication/Computation Trade-offs in Wireless Sensor
Networks: Comparing Network-Level and Node-Level Strategies
U. Yildiz, K. Bicakci, B. Tavli, TOBB
University of Economics and Technology, Ankara, Turkey
14:10
WE3C-3 High Speed SAR ADC Using
Fast Conversion Loop
WE3A-3 Linear-Frequency-Modulated Continuous-Wave Radar for
Vital-Sign Monitoring
WE3B-3 SDR for SRD: ADC
Specifications for Reconfigurable
Gateways in Urban Sensor Networks
G. Wang1, J. Muñoz-Ferreras2, C. Gu1,
C. Li1, R. Gómez-García2, 1Texas Tech
University, Lubbock, United States,
2
University of Alcalá, Alcalá de Henares, Spain
M. Vallerian1,2, G. Villemaud2, B. Miscopein1, T. Risset2, F. Hutu2, 1OrangeLabs, Meylan, France, 2Universite
de Lyon, INRIA, INSA de Lyon, CITIINRIA, Villeurbanne, France
WE3A-4 Wireless Seismometer for
Venus
WE3B-4 Highly Flexible Cognitive
Radio Spectrum Sensing Front-End
G. E. Ponchak1, M. C. Scardelletti1,
B. Taylor2, S. Beard2, B. Clougherty2,
R. D. Meredith1, G. M. Beheim1, W. S.
Kiefer3, G. W. Hunter1, 1NASA Glenn
Research Center, Cleveland, United
States, 2INPROX Technology Corp.,
Boston, United States, 3Lunar and
Planetary Inst., Houston, United States
P. Lohmiller1, A. Elsokary1, S. Chartier2,
H. Schumacher1, 1Ulm University, Ulm,
Germany, 2Cassidian, Ulm, Germany
WE3A-5 Analysis of Phase Sampling
Noise of Switched Injection-locked
Oscillators
WE3B-5 A 5-Level Efficient IFPWM
Power Coding Approach Encoding
LTE for Class-S Digital-RF Transmitter with Distortion Correction
WE3C-5 Low-loss, Wideband SPDT
Switches and Switched-Line Phase
Shifter in 180-nm RF CMOS on SOI
Technology
Q. Zhu1,2, R. Ma1, 1Mitsubishi Electric
Research Laboratories, Cambridge,
United States, 2Illinois Institute of Technology, Chicago, United States
A. S. Cardoso, P. Saha, P. S.
Chakraborty, D. M. Fleischhauer, J. D.
Cressler, Georgia Institute of Technology, Atlanta, United States
M. Ensafdaran, W. Namgoong, The
University of Texas at Dallas, Richardson, United States
WE3D-3 Enhanced Accuracy for a
Complex Image Theory Position
Estimator using Frequency Diversity
M. S. Trotter1, J. D. Griffin1, D. S. Ricketts2, 1Disney Research, Pittsburgh,
United States, 2North Carolina State
University, Raleigh, United States
14:30
WE3C-4 Design and Fabrication
of CPW to Dielectric Image-Guide
Transitions at 60 GHz on SOI
WE3D-4 System and Signal Design
for an Energy-efficient Multi-frequency Localization System
M. A. Basha1, B. Biglarbegian2, S.
Gigoyan2, S. Safavi-Naeini2, 1Zewail
City of Science and Technology, 6th
of October City, Egypt, 2University of
Waterloo, Waterloo, Canada
T. Nowak1, M. Hierold2, A. Köelpin2, M.
Hartmann1, H. Tröger1, J. Thielecke1,
1
Friedrich-Alexander-Universität
Erlangen-Nürnberg, Erlangen, Germany, 2Friedrich-Alexander-Universität
Erlangen-Nürnberg, Erlangen,
Germany
14:50
A. Strobel1, M. Schulz1, F. Ellinger1,
C. Carlowitz2, M. Vossiek2, 1Technische Universität Dresden, Dresden,
Germany, 2Friedrich-Alexander-Universität Erlangen-Nürnberg, Erlangen,
Germany
20
WEDNESDAY, 22 JANUARY 2014
Joint RWW Interactive Poster Session
12:50-14:40
WE3P: Transceivers and Front-end Technologies SOC and SiP
Room: Newport Coast Ballroom
WE3P-1 A 12.1 mW 50~67 GHz
Up-Conversion Mixer with 6 dB
Conversion Gain and 30.7 dB LO-RF
Isolation in 90 nm CMOS
Y. Lin, C. Wang, W. Wen, T. Tsai, National Chi Nan University, Puli, Taiwan
WE3P-7 Full Duplex Prototype of
OFDM on GNURadio and USRPs
W. Zhou, G. Villemaud, T. Risset,
Université de Lyon, INRIA, INSA-Lyon,
Villeurbanne, France
WE3P-13 Dielectric Load in Short
Standard Conical Horns for Satellite
Applications
M. Reyes-Ayala1,2, H. Jardon-Aguilar1,
1
CINVESTAV-IPN, Gustavo A. Madero,
Mexico, 2Metropolitan Autonomous
University, Azcapotzalco, Mexico
WE3P-8 Analysis and Reduction of
the Impact of Thermal Noise on the
Full-Duplex OFDM Radio
Z. Zhan, G. Villemaud, J. Gorce,
Université de Lyon, INRIA, INSA-Lyon,
CITI-INRIA, Villeurbanne, France
WE3P-2 A 5.5 GHz Low-Power PLL
Using 0.18 µm CMOS Technology
J. Tsai, . Huang, J. Chou, National Taiwan Normal University, Taipei, Taiwan
WE3P-3 A 9.96 mW 3.24±0.5 dB NF
1.9~22.5 GHz Wideband Low-Noise
Amplifier Using 90 nm CMOS
Technology
Y. Lin, C. Wang, J. Lee, National Chi
Nan University, Puli, Taiwan
WE3P-4 A K-band BiCMOS Low
Duty-cycle Resistive Mixer
A. Magnani1,2, C. Viallon1, I. Burciu1, T.
Epert1,3, M. Borgarino2, T. Parra1, 1University of Toulouse, Toulouse, France,
2
University of Modena and Reggio
Emilia, Modena, Italy, 3AXESS Europe,
Toulouse, France
WE3P-14 GPU Accelerated Channel
Modeling Ray Tracing Tool
A. S. Abdellatif, S. Safavi-Naeini, University of Waterloo, Waterloo, Canada
WE3P-9 Development of a WideBand Modem for a 21 GHz Band
Satellite Broadcasting System
Y. Matsusaki, M. Nagasaka, Y. Suzuki,
S. Nakazawa, M. Kamei, A. Hashimoto,
T. Kimura, S. Tanaka, T. Ikeda, NHK,
Setagaya-ku, Japan
WE3P-15 Towards Low Power Consumption MMIC UWB Localization
System
E. Elkhouly1, M. Kuhn1, D. Lin2, A.
E. Fathy1, 1University of Tennessee,
Knoxville, United States, 2Ulm University, Ulm, Germany
WE3P-10 A Dual Six-Port with twoAngle Resolution and Compact Size
for Mobile Terminals
R. Hussain, M. S. Sharawi, KFUPM,
Dhahran, Saudi Arabia
WE3P-16 Enhancing Open Loop
Beamsteering Performance for
the Uplink of UMTS/HSPA+ under
Discontinuous Transmission
S. Schroeter, S. Riess, R. Weigel, G.
Fischer, University of Erlangen-Nuremberg, Erlangen, Germany
WE3P-11 Energy Harvesting with
a Low-Cost and High Efficiency
Rectenna for Low-Power Input
S. D. Assimonis, A. Bletsas, Technical
University of Crete, Chania, Greece
WE3P-5 Planar Antipodal Linearly Tapered Slot Antenna using
Grounded Coplanar Waveguide-toSubstrate Integrated Waveguide
Transition for Passive MillimeterWave Imaging
W. Wang1,2, X. Wang1, A. E. Fathy2,
1
Beijing Institute of Technology, Beijing, China, 2University of Tennessee,
Knoxville, United States
Industry Forum - Characterization of High
Power Devices
Organizer:
Steve Dudkiewicz
Speakers:
David Ballo
Stephane Dellier
Tony Gasseling
Al Lorona
Gary Simpson
Room: Grand Pacific Ballroom E
WE3P-19 Performance Characteristics of a Signal Detection Scheme
and its Estimation Method Applicable to M-to-M Communication
System
K. Kashiki, I. Lin, T. Sada, T. Komine,
S. Watanabe, KDDI R&D Labs., Fujimino, Japan
WE3P-20 Electrothermal Modeling of
PIN Diode Protection Circuits in MRI
Surface Coils
R. H. Caverly, Villanova University,
Villanova, United States
WE3P-17 A Dynamic Power Allocation and Relay Selection Scheme
for Energy-Harvesting Wireless
Networks
G. Li1, S. Zhu1, P. Ren1, H. Hui2, 1Xi’an
Jiaotong University, Xi’an, China, 2Xi’an
University of Technology, Xi’an, China
WE3P-12 Using OFDM Pilot Tones
for Spectrum Sensing with Applications to Mobile WiMAX
A. G. Temtam, D. C. Popescu, Old
Dominion University, Norfolk, United
States
WE3P-6 A Wideband Phase Modulation Technique Adopting Fractional-N Direct Digital Frequency
Synthesizer
B. Zhang, F. You, R. Tong, S. He,
University of Electronic Science and
Technology of China, Chengdu, China
WE3P-18 Charging Mechanisms
in Nanostructured Dielectrics for
MEMS Capacitive Switches
G. Papaioannou1, L. Michalas1, M.
Koutsoureli1, S. Bansropun2, A. Gantis1, A. Ziaei2, 1University of Athens,
Athens, Greece, 2Thales Research and
Technology France, Palaiseau, Paris,
France
Wednesday
9:00-17:00
Abstract:
Device characterization is an essential process in many aspects of research, development and
testing of RF and microwave devices. To the inexperienced, this might seem intimidating or
even scary. In this course, we will explore various interconnected topics of device characterization that form the amplifier design flow. Topics include pulsed IV and S-parameters for compact
model extraction, load pull for model validation and measurement, amplifier design and IC stability analysis, X-parameter modeling and system-level simulations.
The Industrial Forum includes an Exhibit, Wireless Apps (similar to uApps) and special hardware
demonstrations given by researchers
Note: Note included in conference package. Please register at http://rww2014device.eventbrite.
com.
Please see also Monday Industry Forum on page 8.
21
WiSNet Session: WE4A
Progress in Sensor
Systems
Chair: Thomas Ussmueller, University of Erlangen-Nuremberg
Co-Chair: Apostolos Georgiadis, CTTC Barcelona
C/D
RWW Session: WE4B
SiRF Session:WE4C
Wireless System
Architecture and
Modeling
Signal Source
University of Ulm
A/B
Room: Baycliff
RWW Session: WE4D
Digital Signal Processing
as Applied to Wireless
Room: Cardiff
15:40
WE4A-1 SIW Components and
Antennas Based on Eco-friendly
Materials and Technologies: Stateof-the-Art and Future Applications
M. Bozzi, R. Moro, University of Pavia,
Pavia, Italy
WE4B-1 Wake-Up Radio Architecture
for Home Wireless Networks
F. Hutu, A. Khoumeri, G. Villemaud, J.
Gorce, Université de Lyon, INRIA, Villeurbanne, France
WE4C-1 Novel Frequency Quadrupler Design Covering the Entire V
Band in 0.13 µm SiGe Process
WE4D-1 Indoor Localization Based
on Feed-forward Neural Networks
and CIR Fingerprinting Techniques
S. Yuan, H. Schumacher, Ulm University, Ulm, Germany
R. Zouari, R. Zayani, R. Bouallegue,
Innov’Com Carthage University, Ariana,
Tunisia
16:00
WE4A-2 Network Demonstration
of Low-cost and Ultra-Low-Power
Environmental Sensing with Analog
Backscatter
E. Kampianakis, S. D. Assimonis, A.
Bletsas, Technical University of Crete,
Chania, Greece
WE4B-2 Exploiting Hidden Markov
Models in Identifying Passive UHF
RFID Tags
WE4C-2 A 20 GHz VCO and Frequency Doubler for W-band FMCW
Radar Applications
B. A. Alsaify1,2, D. R. Thompson2, J.
Di2, 1Yarmouk University, Irbid, Jordan,
2
University of Arkansas, Fayetteville,
United States
W. Wang1, Y. Takeda2, Y. Yeh1, B. A.
Floyd1, 1North Carolina State University,
Raleigh, United States, 2Asahi-Kasei
Microdevices Corp., Kanagawa, Japan
WE4D-2 A New Efficient Approach
for Modeling the Ultra Wide Band
Systems. Applications for Links
Involving Wireless Digital Communications
R. G. Caputo1, G. V. Figueiredo1, M.
Silveira2, 1Pulse Perfect Science and
Technology, Geneva, United States,
2
Federal University of ABC, Santo
Andre, Brazil
16:20
WE4A-3 Development of Ploughable RFID Sensor Network Systems
for Precision Agriculture
C. Wang, D. George, P. R. Green,
University of Manchester, Manchester,
United Kingdom
WE4B-3 Protocol Analysis of Signal
Detection for Deriving Minimum
Isolation Distance for Frequency
Recycling under WLAN Systems
WE4C-3 2.4 GHz / 3.5 GHz Dual-Band
Wide-Tuning-Range Quadrature VCO
using Harmonic-Injection Coupling
Technique
WE4D-3 Effect of Different Platforms on Coupling Compensation
Matrices in AOA Estimation Algorithms Using Small Size UCA
M. Goto1, O. Takyu1, T. Fujii2, F. Sasamori1, S. Handa1, 1Shinshu University, Nagano, Japan, 2The University of
Electro-Communications, Chofu, Japan
M. Wei1, S. Chang3, Y. Zhang2, Y. Yang4, R. Negra1,
T. S. Ghazaany1,2, S. Zhu1,2, S. M.
Jones1, R. A. Alhameed1, J. M. Noras1,
T. Van Buren2, S. Marker2, 1University
of Bradford, Bradford, United Kingdom,
2
Seven Technologies Group-Datong,
1
RWTH Aachen University-Mixed Signal CMOS
Circuits, Aachen, Germany, 2RWTH Aachen UniversityIntegrated Analog Circuits and RF Systems, Aachen,
Germany, 3National Chung Cheng University, Chiayi,
Taiwan, 4Taiwan Semiconductor Manufacturing Company, Hsinchu, Taiwan
16:40
WE4A-4 Adaptive Wireless Sensor
Networks for High-Definition Monitoring in Sustainable Agriculture
WE4B-4 Data-Dependent Transmitter Fingerprints for Radio Authentication
A. Rodríguez de la Concepción, R.
Stefanelli, D. Trinchero, iXem Labs Politecnico di Torino, Torino, Italy
A. Mahmood, M. A. Jensen, Brigham
Young University, Provo, United States
WE4A-5 Efficient Power Supply for
Telemetry Sensor Nodes
WE4B-5 Energy Consumptions
Analysis for a Class of Symmetric
Encryption Algorithm
WE4C-4 K-Band Differential and
Quadrature Digitally-Controlled
Oscillator Designs in SiGe BiCMOS
Technology
WE4D-4 Digital Correlation Receiver
for Improving Equivalent Time
Sampled Pulse in Ultra WideBand
Localization System
C. A. Maxey, S. Raman, Virginia Tech,
Arlington, United States
A. Kheirdoost1,2, G. Moradi2, E. Elkholy1, A. Fathy1, 1University of Tennessee,
Knoxville, United States, 2Amirkabir
University of Technology, Tehran, Iran
17:00
H. Tröger1, G. Kilian2, J. Robert1, M.
Hartmann1, T. Nowak1, M. Meyer1, A.
Heuberger1,2, 1Friedrich-AlexanderUniversität (FAU), Erlangen, Germany,
2
Fraunhofer Institute for Integrated
Circuits (IIS), Erlangen, Germany
WE4D-5 Streamlined MIMO CrossOver Digital Predistortion
M. Vejdaniamiri , M. Helaoui, F. Ghannouchi, University of Calgary, Calgary,
Canada
W. Y. Zibideh1, M. M. Matalgah2, 1Qualcomm Technologies Inc., San Diego,
United States, 2University of Mississippi,
University, United States
22
SEAVIEW
TERRACE
N
PACIFIC OCEAN
23
HARBOR LANDING
POOL
ELEVATOR TO
GUEST LAUNDRY
TERRACE LEVEL
SPA POOL
GAZEBO
POOL
ROSE
GARDEN
SPA AND HEALTH CLUB
STARBUCKS
ATRIUM
COURT
M
EN
AVALON
EAST
AVALON
WEST
BUSINESS
CENTER
BAYCLIFF
LOBBY
LOUNGE
W
OM
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RESTAURANT
HARBOR
POINTE
SUNSET
TERRACE
MEN
SALON
B
SALON
A
PACIFIC LANDING
SALON
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GRAND PACIFIC
REGISTRATION
SALON
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GRAND PACIFIC
BALLROOM
GOLF COURSE
WOMEN
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SALON 3
SALON 4
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D NC I N
FL E TE
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COVE
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CO ION CARDIFF
RT AT
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PATIO
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NEWPORT COAST
BALLROOM
SALON 5
CRYSTAL
COVE
SAPPHIRE
COVE
EMERALD
COVE
DIAMOND
COVE
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PO
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BA
R
M
900 Newport Center Drive
Newport Beach, California 92660 USA
1-949-640-4000
www.NewportBeachMarriott.com
Hotel Map
24
RWW at a Glance

Newport

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