Giving to Talent
Transcription
Giving to Talent
Science and Engineering Research Board Department of Science and Technology Govt. of India Department of Biotechnology Govt. of India Indo-US Science and Technology Forum Giving Wings to Talent Khorana Program for Scholars S.N. Bose Scholars Program Viterbi-India Program Student Symposium 22 August 2015 New Delhi, India Giving Wings to Talent Student Symposium Indo-U.S. Science & Technology Forum Fulbright House, 12 Hailey Road, New Delhi-110 001 www.iusstf.org Foreword It has been unambiguously demonstrated that providing students and young scientists with an exposure to cutting-edge scientific research experiences at a formative stage not only broadens their intellectual horizons but also leads to increased engagements in scientific and technological research careers. To address the need for human resource development and capacity building in science and technology, the Indo-U.S. Science and Technology Forum (IUSSTF) is committed to nurture contacts between students of science and technology from India and the United States. IUSSTF has been proactive in developing and implementing innovative programs that enable young students from institutions across the country to spend varying periods of time at premier US institutions as student interns. The Khorana Program for Scholars, S.N. Bose Scholars Program and the Viterbi-India Program are notable IUSSTF initiatives in this context. We are grateful for the funding and guidance we receive for these programs from the Department of Biotechnology (DBT), Govt. of India, Department of Science and Technology (DST), Govt. of India and the Science and Engineering Research Board (SERB). I would also take this opportunity to extend my thanks to Prof. Raghu Raghavendra (University of Southern California) and Prof. Aseem Ansari (University of Wisconsin-Madison) for their support in making these programs such a success! The purpose of these initiatives is to enable young students to generate new insights and refine their perspectives under the guidance of able faculty mentors. It gives me great pleasure to bring to you this compendium of projects pursued by the student interns of 2015. I congratulate the team at IUSSTF for having worked ceaselessly to plan and implement these programs - making them one of the most sought after in their genre! Your feedback will help us to redouble our efforts to improve our work and serve the cause of S&T cooperation in the most effective manner. Rajiv Sharma Executive Director, IUSSTF Contents Khorana Program for Scholars Amrutha V | Spreading of Pathogenic α-Synuclein Across the Nervous System in Drosophila Model of Parkinsons Disease 12 Anil Kiran Chokkalla | A Novel Polyamide Based Artificial Transcription Factor to Alleviate Transcriptional Inhibition of Frataxin in Friedreich’s Ataxia 13 Anjali Priya | Study the Effect of Ubiquitin Carboxyl Terminal Hydrolase 1 (UCHL1) Over-Expression in Ovarian Cancer 14 Anukriti Mathur | Role of Human Fcγ Receptors in SLE Pathogenesis 15 Anupallavi Srinivasamani | MiR23a Cluster : A Potential regulator of NK Cell Biology 16 Apurva Gajwani | Vitamin C Degeneration in Microwave Heating of Broccoli 17 Charul Agrawal | Database of Identified Poly and Mono ADP-Ribosylated Proteins 18 Chiti Arvind | An Account of the Nesting Behaviour of the Greater Ani (Crotophaga Major) 19 Debalina Datta | Computational Design of Chlorophyll Bound to Water Soluble Chlorophyll-Binding Protein (WSCP) with ProtCAD 20 Debayan De Bakshi | Effect of Mammalian-Target-of-Rapamycin (MTOR) on Triple-Negative Breast Cancer 21 Dileep Kishore | Wildtype Flux Prediction from RB-Tnseq Data 22 Jyotsna Misra | Structural Studies of the Yeast Spindle Pole Body 23 Kaivalya Molugu | Structural Understanding of Aryl Hydrocarbon Receptor (AHR), a Potential Drug Target for Cancer 24 Kalki Kukreja | Characterizing the Ribosome Association of Yeast Protein Stf2 During Acute Stress 25 Kanmani Chandra Rajan | Cloning Different Fusion Proteins with Degrons, Expression and Study of Their Degradation by FtsH 26 Karen Thulasi Devendrakumar | Transgenic Corn Expressing Oleosin and Wrinkled1 Transcription Factor- A System for 27 Kaustav Bera | Micro Pillar Embedded Channels for Probing Adhesion and Deformability of Red Blood Cells 28 Increased Oil Production in Corn Leaves Kshitij Agarwal | Identification and Differentiation in Human Hand Gripping Patterns Using EMG and Tactile Sensing 29 Navneet Singh | Structure/Function Analysis of TraR, An RNA Polymerase Regulator 30 Naveen Gangadharan | Multi Modal Mechanical Ventilator 31 Priya Chittur | Nonspecific Binding of RNAP to Single Stranded Ends of Cy3/Cy5 –Labeled λPR Promoter DNA 32 Reshma Jamal | Identification of Liver Specific Roles for FXR and SHP 33 Ranjan Mukherjee | Selection of High Affinity Nucleic Acids to Counter Influenza Virus 34 Ritu Roy Chowdhury | Investigating the Role of Inhibitory Interneurons in Information Processing in the Mouse Visual Cortex (V1) 35 Shravanti Krishna Suresh | Spatial Evolution of Antigenic Sites in Human Influenza Viruses - H3N2 36 Saakshi Parolia | Partial Replacement of Wheat with Ancient Gluten-Free Grains for Naan Formulation (Traditional Indian Bread) 37 Saranya Giridharan | Engineering E. Coli for Production of Succinate by Soybean Wastes 38 Shreya Nahata | Investigating the Role of Mitochondrial DNA Reduction in the Induction of Cancer Stem-Like Cells in 39 Shreya Gupta | In Vitro Blood Brain Barrier to Study Cancer Invasion Mechanism and Characterisation of 40 Swaathi Ratna S | Semi Automated Backbone Assignment – SPARKY 41 Esophageal Squamous Cell Carcinoma Penetration Properties of Anti-Cancer Drugs Sruti Devendran | Exploration of Morphological Characters in Malvaceae 42 Urvi Nikhil Shroff | Role of Macula Densa Cells in Nephron Remodelling and Repair 43 Vaibhav Dnyandev Phad | Light Delivery Modeling and Simulations in a 3D Monte Carlo Simulation Platform in Optogenetics. 44 Vaishali Yadav | Study the Pattern of CamKII Protein Synthesis Associated with LTM 45 Vaishali Balachandran | Role of Human Annexin A1 Protein in Wound Healing 46 Vikramjit Lahiri | An In-Vivo Methylcap Sequencing Method in Drosophila 47 S.N. Bose Scholars Program Aashiq Muhamed | Dynamic Modelling an Energy Kite 52 Aashish Bhardwaj | Stiffness Reduction Due to Waviness in Lattice Members of Micro-Lattices 53 Abhishek Kumar | Insight into Supercavity Physics 54 Aditi Chatterjee | Understanding the Kinetics of Isotopic Exchange Between Propane and Water When Exposed to 55 Aditi Raghunathan | Globally Consistent Estimators for Learning Under Indirect Supervision 56 Akshat Jain | Hybrid Objects 57 Aishwarya Mahant Kumar Rath | Predicting Mean Velocity Profiles in Combined Fluid Porous Layer Systems. 58 Apoorva Joshi | Hardware and Design of a Visualization and Analysis Lab for Medical Imaging Applications 59 Alok Sharma | Electrostatics Modelling & Compressive Sensing 60 Arjun Vijeta | Chemoselective Active of sp3 vs sp3 C–H Bonds with Pd(II) 61 Different Catalysts and Temperature for a Range of Time Aprameya Ganesh Prasad | SPION Modification of Drug Loaded Nanoparticles for Theranostic Applications 62 Ayush Tomar | Visual Topic Networks in Social Networks 63 Ashish Daga | Characterization of Two Phase Slug Flow Through a Heated Microchannel 64 Apala Chaudri | Study of Telomerase Repeat Factors 65 Bhagyashree Prabhune | Topology Optimization of 3D Compliant Mechanisms 66 Brinda Kuthanazhi | Graphene Based Electrode Material for Supercapacitors 67 Chandrachur Bhattacharya | Simulation of Combustion Instability for On-Line Control by Instability Detection Using Stsa 68 Ishan Manjani | Countering the Effect of Ageing in 3D Face Recognition 69 Jatindeep Singh | Detection of SNP Using RNA Sequencing 70 Kazi Ranjibul Islam | Subdiffusion in Strongly Disorderder Noisy Environment 71 Koushik Chatterjee | Searching for ULXs in Hst Imaged Galaxies 72 Kalind Baraya | Analytical Modelling of Closed-Loop Pulsating Heat Pipes 73 Kartikeya Singh Sangwan | Geochemical Analysis of Oceanic Sediments of Site U1359 from the Continental Rise Off Wilkes Land, East Antarctica 74 Khyathi Raghavi Chandu | Automatic Classification of Medical Abstracts for Evidence Based Medicine 75 Lois Thomas | A Study on Monsoon and Premonsoon Atmospheric Boundary Layer (Using Sounding Analysis and 2D Baby EULAG Model) 76 Partha Pratim Dutta | IGC3: A Fully Electronic Microfabricated Gas Chromatograph with Capacitive Detectors for Indoor Pollutants 77 Phalguni Shah | Two Earthworm Models 78 Poulami Chakraborty | Smartphone Application for Community Engagement and to Analyse Social Practices 79 Priyanga Ganesan | Quantitative Analysis of Trapping Stochastic Movers 80 Pranav Gupta | Automatically Mapping Datasets to a Large Real-World Ontology 81 Ramudu Kolisetty | Implementation and Parallelization of Multi-Fractal Detrended Fluctuation Analysis(DFA) Algorithm Using Matlab. 82 Rajath Kantharaj | On the Effective Thermal Conductivity of Granular Material Packings 83 Rishav Roy | Controlling Lateral Inertial Migration Rate of Particles in Microchannels 84 Ravi Srivastava | Late-Stage Diazirination of Drug-Like Molecules 85 Robin Singh | Capacitive Micromachined Ultrasonic Transducers: Next-Generation Arrays for Acoustic Imaging 86 Rishav Choudhary | Hydrogen Production by Water Thermolysis Using MIEC Membranes 87 Satyanarayana | NDN Link Layer Reliability Protocol 88 Samprit Ghosh | L-functions of the Picard Family of Curves 89 Shalini Gupta | MD Simulations of a de Novo Designed Single Site Zn2+ Transporter 90 Shaurya Garg | Analytic Modelling of 2 Dof Landing Gear System in Terms of Distance Travelled Parallel to the Ground 91 Shelly Aggarwal | Laser –Micro Machined Bulk PZT Ultrasonic Traveling Wave Motor 92 Shashwat Kumar Singh | Earthquake Relocation in the Middle Atlas: Apparently-Deep Events Resolved to be Shallow 93 Sidhyansh Saxena | Methods and Apparatus for a Survivor Search System Using One or More Drones 94 Shristi Singh | Spreading of Miscible Sessile Drops 95 Shilpa Vijay | Experimental Characterization of Permeability in 3-D Printed Porous Cylinders 96 Soumya Kamal Kanungo | Saturation Absorption Spectroscopy 97 Sooraj Ben K.R. | Inorganic Hole Conductor Cui -Based Perovskite Solar Cells 98 Shruthi Tiruchirapalli Kumar Raj | Porous Silicon Carbide from Silica Aerogels Crosslinked with Aromatic Triisocyanates 99 Soumya Wadhwa | Predicting the Number of Triangles in Similarity-Based Graphs using Node-Sampling 100 Soumya Ranjan Sahoo | Navier-Stokes/Darcy Coupling on Complex Geometries 101 Subrata Singha | Fluid Saturation Change and Pressure Change Estimation from Time-Lapse Seismic Data 102 Srishti Bhutani | Analytical Evaluation of Unreinforced Masonry Stability 103 Suman Ghosh | Appliance Reader: A Wearable, Crowd-sourced, Vision-based System to Make Appliances Accessible 104 Ujash Shah | Numerical Simulation of Waves in Stratified Seas to Validate Cloaking 105 Vivek Pandey | Simple & Low Energy Consuming Synthesis of Naphthoxazines and Their Properties 106 Venkatachalam Avadiappan | Model for Variable Temperature Heat Integration 107 Viterbi-India Program Aakanksha Naik | Exploring the Effectiveness of Query Expansion Techniques in Improving Language Understanding for Virtual Humans 112 Adarsh Amarendra Tadimari | Using Trailers to Predict Movie Revenues 113 Aditi Gupta | Automatically Mapping Datasets to a Large Real Word Ontology 114 Aditya Chandrasekar | Modeling Topics in Scientific Literature using HMM and LDA 115 Ankit Goyal | A Multimodal Approach to Continuous Emotion Prediction in Movies 116 Atharva Girish Wazurkar | Low Power Digital to Analog Converter in 28nm Technology for Fine Grained Programmable Delay Element 117 Avisek Lahiri | Large Scale Video Event Classification 118 Biswajit Paria | Feature Learning in Clinical Time Series using Deep Learning 119 Jayashree Mohan | Analyzing Single-Phase Downloads over Random Duration Links in Mobile Networks 120 Kushal Dilipkumar Salecha | Smart Grids 121 Megha Arora | Understanding the Impact of Demographics on Sociability 122 Mehak Gupta | Evidence of Non-Linear Manifold in fMRI data 123 Prakhar Kumar | Neuromorphic Circuits- Neural Network Simulations 124 Rucha Sanjay Vaidya | Usage of DTN for Ebola Monitoring and Response 125 Sagar Kashinath Honnungar | Target Detection Via Low-Rank Tensor Completion 126 Saurav Prakash | Reducing Complexity for Signal Processing on Graphs 127 Tathagata Srimani | Electronics and Optoelectronics of a novel Transition Metal Dichalcogenide 128 Vikranth Reddy Dwaracherla | Developing a Stereo Vision Algorithm 129 Department of Biotechnology Govt. of India Indo-US Science and Technology Forum The Department of Biotechnology, Govt. of India, IndoUS Science and Technology Forum and WINStep Forward are partnering to support the prestigious Khorana Program for Scholars named in honor of Dr. Har Gobind Khorana, who won the Nobel Prize in 1968 for his work at the interface of Chemistry and Biology while he was a member of the University of WisconsinMadison faculty. The Khorana Program for Scholars is envisaged to • • • • Provide encouragement to young scholars to undertake R&D Enable students to carry out research at a premier University in the United States Transform research into societal benefits Build a seamless scientific community between India and the United States Eligibility Pre-final year B.Tech, M.Tech, M.Sc., M.B.B.S, and B. Pharm students currently enrolled in recognized institutions of higher education in India in the areas of Biotechnology (broadly defined, including agricultural, health, fundamental biological and biomedical sciences) are eligible to apply. Students pursuing PhD are NOT eligible to apply. Scholarship includes • • • Stipend Airfare Health Insurance More information is available at http://www.iusstf.org/story/53-50-Khorana-Program.html Amrutha V Indian Institute of Science Education and Research, Bhopal Spreading of Pathogenic α-Synuclein Across the Nervous System in Drosophila Model of Parkinsons Disease Mentor Barry Ganetzky University of Wisconsin-Madison Parkinson’s disease (PD) is a chronic and progressive movement disorder, meaning that symptoms continue and worsen over time. It involves the malfunction and death of vital nerve cells in the brain, called neurons. Some of these dying neurons produce dopamine, a chemical that sends messages to the part of the brain that controls movement and coordination. α-Synuclein (α-Syn) is a major component of protein aggregates known as Lewy bodies, which are hallmarks of synucleinopathies such as Parkinson’s disease. It has been shown that in Huntington’s disease, another neurodegenerative disease, protein aggregates spread from one type of neuron to other types in a spatiotemporal manner. In this project we investigated to see whether such spreading phenomenon happens in Drosophila model of Parkinson’s disease. This is studied by specifically tagging mutant A53Tα-Syn with an HA tag and expressing it in fluorescently labeled subset of dopaminergic neurons in the posterior region of the fly brain. The spreading is monitored by imaging fly brain using confocal microscopy and co-localization techniques at different age points. 12 Indo-US Science & Technology Forum Anil Kiran Chokkalla Indian Institute of Technology-Madras, Chennai A Novel Polyamide Based Artificial Transcription Factor to Alleviate Transcriptional Inhibition of Frataxin in Friedreich’s Ataxia Mentor Aseem Z Ansari University of Wisconsin-Madison The neurodegenerative disorder Friedreich’s ataxia (FRDA) is caused by hyper-expansion of GAA repeats in the first intron of a nuclear gene that encodes the essential mitochondrial protein frataxin. This protein is involved in various processes related to iron homeostasis and metabolism. Normal frataxin alleles have 6-34 repeats whereas FRDA patients have 661,700 repeats. These intronic repeats adopt unusual secondary structure and interfere with transcriptional machinery leading to transcriptional repression of frataxin. The present study aims to relieve this transcriptional inhibition by employing a novel polyamide based artificial transcription factor. Polyamides are cell permeable small molecules that can be programmed to recognize a broad repertoire of DNA sequences. The polyamide used here is rationally designed to bind to (GAA)3 consensus sequence and is conjugated to a ligand that can recruit chromatin remodeler. Results demonstrate that this modularly assembled artificial transcription factor caused 6-fold activation of frataxin in in vitro cell culture system. Giving Wings to Talent | Student Symposium 13 Anjali Priya Cochin University of Science and Technology, Kochi Study the Effect of Ubiquitin Carboxyl Terminal Hydrolase 1 (UCHL1) Over-Expression in Ovarian Cancer Mentor Sumegha Mitra Indiana University School of Medicine, Bloomington Ovarian cancer is the most lethal of all the gynaecological malignancies and is the fifth leading cause of death among women in United States. Poor patient prognosis and detection in advanced stages because of confounding symptoms in early stages attributes to the ovarian cancer related deaths. UCHL1 has been implicated with many cancers like lung cancer, nasopharyngeal carcinoma, hepatocellular carcinoma and colon cancers. It regulates cellular functions like cell cycle, DNA repair and cell-cell communication. UCHL1 is a deubiquitinating enzyme that removes or edits the poly or mono ubiquitin chains from the ubiquitinated proteins. However, the role of UCHL1 in ovarian cancer remains unknown. In the present 14 study, we investigated the effect of UCHL1 overexpression in ovarian cancer cellular proliferation. We studied the expression of UCHL1 in three different ovarian cancer cell lines HeyA8, IGROV1 and SKOV3ip and the effect of UCHL1 overexpression in ovarian cancer cell HeyA8. HeyA8 ovarian cancer cells were transfected with mammalian expression vector pCMV6XL5 containing full length UCHL1 protein sequence. UCHL1 overexpression was validated by Western blotting. UCHL1 over-expressed HeyA8 cells demonstrated significantly reduced proliferation in MTT assay on Day 1 and Day 3 suggesting a tumor suppressive effect of UCHL1 over-expression in HeyA8 ovarian cancer cells. Further studies are needed to confirm these results. Indo-US Science & Technology Forum Anukriti Mathur Birla Institute of Technology and Science, Pilani Role of Human Fcγ Receptors in SLE Pathogenesis Mentor Tanya N. Mayadas Harvard Medical School, Boston Systemic lupus erythematosus (SLE) is a multisystem autoimmune disorder with high levels of circulating autoantibodies and immune complexes. Fγc receptors are proteins expressed on the surface of immune cells, which recognize immune complexes and eliminate the invading pathogens. Mayadas lab reported that Mac-1 deficient mice having hFcγRIIA developed more lupus nephritis than hFcγRIIAIIIB mice. To extend the work in the same light, I worked on what role does hFcγRIIIB has in SLE pathogenesis. Our lab had IIIB+γ-/- Mac1-/- mice and passive transfer of human SLE serum model was carried (Rosetti et al.2012). The FACS and proteinuria result showed that neutrophil infiltration and albumin leakage respectively in IIIB+γ-/- Mac1/- were low as compared to IIA+ IIIB+γ-/- & IIA+γ-/-Mac1-/- mice. Thus based on various previous reports and present findings we can conclude that human FcγRIIIB does not play any role in SLE pathogenesis. We also did an adoptive transfer of bone marrow neutrophils from IIA+γ-/-Mac1-/- mice into WT mice to determine whether Mac1 on neutrophils versus other leukocytes is playing a role in our SLE model. The data was in-conclusive and would be repeated with changes in near future. There were other projects and experiments in which I contributed during my stay. Giving Wings to Talent | Student Symposium 15 Anupallavi Srinivasamani University of Pune MiR23a Cluster : A Potential regulator of NK Cell Biology Mentor Subramaniam Malarkannan Medical College of Wisconsin, Milwaukee. Natural killer (NK) cells are a subset of lymphocytes responsible for eliciting innate immune responses against malignant transformation and viral infection. There exist an intricate network of post- transcriptional regulation of the development, maturation and function of NK cells mediated by microRNAs (miRNAs). miRNAs are endogenous, non-coding and small (~22 ribonucleotides) RNAs that regulate the translation of its target mRNAs in various cell types. The function of miR23a cluster constituting three mature miRNAsmiR23a, miR27a and miR24-2 has been previously implicated in acting downstream of an essential hematopoietic (myeloid) lineage specific transcription factor (TF) PU.1 in B cells. PU.1 is a member of the Ets family of TFs that plays a role in the early stages of NK cell development by shaping the 16 hematopoietic lineage specification in Common Lymphoid Progenitors (CLPs). mRNAs of essential effector molecules in NK cells - Perforin (Prf1) and Granzyme B (GzmB1) were shown to be the target of the miR23a cluster. Hence, this cluster is seminal in the regulatory mechanisms that exist in NK cells. Our objective is to elucidate the phenotype and functional changes in the NK cells when this cluster is knocked out. The results indicate towards a possible decrease in NK cell precursor cells in the bone marrow of miR23a−/− mouse. The decrease in NK cell number in the miR23a−/− mice is accompanied with a decrease in IFN-γ production and an altered cytotoxicity profile. Further research is being carried out to validate the above results and to decode the gene expression profile in the miR23a−/− NK cells by microarray analysis. Indo-US Science & Technology Forum Apurva Gajwani Indian Institute of Technology, Kharagpur Vitamin C Degeneration in Microwave Heating of Broccoli Mentor Ashim. K. Datta Cornell University, Ithaca Broccoli is a common vegetable for most families, not only because of the taste but also because of the components with nutritional value and components that contribute to health (e.g. vitamin C and glucosinolates). However, as these components are temperature sensitive, they may deteriorate during cooking. From this point of view low and moderate temperatures are requested for cooking. Furthermore, the changes in quality depend on the local moisture content and temperature in the product rather than the average moisture content. With dynamic distributed models the quality and moisture content during the cooking process can be predicted. These models are also essential to optimize the product quality. To predict and to optimize the quality it is necessary to know the concentration and temperature profiles in the product as a function of time. It is here that mathematical modeling complemented with experimentation can contribute to and provide a level of understanding in ways that are impossible to achieve through experiments alone. Therefore, the main aim of this work is to develop a fundamentals-based model to understand cooking of a piece of broccoli having a floret and a stalk as a material for microwave drying. Giving Wings to Talent | Student Symposium 17 Charul Agrawal Indian Institute of Technology, Delhi Database of Identified Poly and Mono ADP-Ribosylated Proteins Mentor Anthony Leung Johns’ Hopkins University, Baltimore Poly(ADP-ribose) polymerase (PARP) is a family of enzymes with 17 members which regulate post translational modification of proteins by attaching a single ADP ribose unit (MARylation) or a chain of ADP ribose (PARylation) which can be branched or un-branched. These modifications have been implicated in DNA repair, circadian rhythms, cell cycle regulation, RNA processing, transcription regulation and various other cellular processes. Under Dr. Leung, I have attempted to identify all the proteins which are known to be modified by PARPs. Different approaches have been used till date to identify various proteins being modified including immunoprecipitation, immunoblotting, autoradiography, gel electrophoresis, mass- 18 spectrometry. Many techniques simply prove protein association with PARPs and cannot be used as proofs of protein modification. Some techniques like mass spectrometry and mutational studies also identify sites of modification. Our database contains detailed information on the techniques used to identify PARylation or MARylation of a particular protein also including the particulars of drugs used in different works.The results of this study i.e. the database we have created will be used to develop the first ever online tool characterizing poly and mono ADP ribosylation. We are certain that our database will find application in homology studies, cross-referencing of experimental results, planning assays for further experimentation, etc. Indo-US Science & Technology Forum Chiti Arvind Mount Carmel College, Bangalore An Account of the Nesting Behaviour of the Greater Ani (Crotophaga Major) Mentor Christina Riehl Harvard University, Panama The Greater Ani (Crotophagine major) is a neotropical cuckoo of the Cuculidae family. They range from eastern Panama through northern Argentina. Not much is known about the incubation patterns of the Greater Anis. They are distinct from their cuckoo counterparts as they nest communally instead of characteristically being brood parasites. This could be because high nest predation rate may favour multiple brooding and more renesting attempts. An Ani nesting group might consist of 2 or more monogamous pairs which lay their eggs in a single nest and take turns in nest building, incubation, nest defence and parental care. During egg laying, a female tosses out the all eggs from a nest prior to laying her first egg. Egg- tossing ceases when all laying females have at least laid one egg. A female lays an egg every alternate day. Incubation lasts for a period of 11-12 days. Chicks on hatching are altricial, but open their eyes and become mobile shortly after hatching. This study aims to monitor the time spent by an individual at the nest during the laying and post-laying period along with its relation to maintenance of nest temperature. This is accompanied by characterizing their nest activities during the period of incubation. The study site included areas around Barro Colorado Island (in the Panama Canal) and the surrounding peninsulas comprising the Barro Colorado Natural History Monument operated by the Smithsonian Tropical Research Institute. Experimental set up was done at bird nests situated on the shoreline buy using Thermochron iButtons attached to Ani eggs which served as temperature analoggers. Nest behaviour was monitored for a period of 6-7 hours by setting up video recording cameras at close proximity to the nest. This project aims to explore the Greater Ani’s unique nesting behaviour and provide inputs for further research in this direction. Giving Wings to Talent | Student Symposium 19 Debalina Datta University of Hyderabad Computational Design of Chlorophyll Bound to Water Soluble Chlorophyll-Binding Protein (WSCP) with ProtCAD Mentor Vikas Nanda Rutgers University, New Jersey Natural selection has provided photosynthetic organisms with a highly efficient and dynamic apparatus called photosystem for capturing incoming solar light. The key to the photosystem functionality held by organised light absorbing pigments (primarily chlorophylls (Chls) and bacteriochlorophylls (BChls)) in densely packed arrays within light-harvesting complexes (LHCs) and reaction centres at specific geometries. One of the model systems used to study pigment-protein interaction is water soluble chlorophyll-binding proteins (WSCP). Here, we used computational protein designing software ProtCAD to mimic the conformation of experimental structure of Chlorophyll bound WSCP. This involves defining all 20 the amino acid residues along with the chlorophyll into ProtCAD library, which includes Vander Waals atom types, defining connectivities between the atoms of the residues and calculating the atomic charges on each atom.. After adding the degrees of freedom, conformation sampling produced the optimal alignments of the chlorophyll bound to protein. The energetically most stable conformation was compared to the experimental crystal structure of WSCP bound Chlorophyll. Further calculations can be done to modify the native protein sequence for increasing the electrostatic properties in an effort to enhance the rates of electromagnetic resonance energy transfer, and take a step towards devising an artificial photosynthetic system. Indo-US Science & Technology Forum Debayan De Bakshi Vellore Institute of Technology, Vellore Effect of Mammalian-Target-ofRapamycin (MTOR) on Triple-Negative Breast Cancer Mentor Vincent Cryns University of Wisconsin-Madison The mammalian - Target-ofRapamycin (mTOR) pathway is a plethora of intricately woven intracellular and extracellular signals which exhibit complex control over the processes of cell metabolism, growth, proliferation and survival. The central axis of the PI3K-Akt-mTOR signalling pathway has been proven to be a hotbed of mutations in a multitude of cancers. My main objective is to ascertain whether mTOR mutations increase Triple-Negative-Breast-Cancer sensitivity toward mTOR inhibitors in-vitro and have an effect on levels of an anti-apoptotic molecular chaperone called αB crystallin, which has a role in metastasis. We have selected MDA-MB-231, MDA-MB-468 and GILM 2 TripleNegative-Breast-Cancer cell-lines, which exhibit no prior known mTOR mutations, as our in-vitro models keeping in mind the variation of αB crystallin expression. Two common mTOR mutations, S2215Y and R2505P, were selected via literature review and our objective was to engineer the aforementioned celllines to express these mutations. We followed a dual approach of cotransfection using Lipofectamine with a selection marker and stable transfection using viral-cloning techniques. The engineered cell lines were analysed via Western Blot for the overexpression of specific proteins upstream (Akt) and downstream (S6Kinase and 4EBP1) of mTOR to observe the effect of this hyper-mutation. Moreover, we analysed the sensitivity of these activated mutants to different mTOR-inhibitors via MTS-viability assays, Crystal-Violet-survival assays and verified with Western Blots the changed levels of the earlier mentioned proteins posttreatment. The mechanism of cell death as apoptosis may be confirmed via Annexin-V-Flow Cytometry and Caspase-3Immunoblotting. Giving Wings to Talent | Student Symposium 21 Dileep Kishore Indian Institute of Technology-Madras Wildtype Flux Prediction from RB-Tnseq Data Mentor Jennifer Reed University of Wisconsin-Madison RB-Tnseq is a powerful approach to annotate gene function in bacteria and other microorganisms. In this technique, DNA bar coded transposons are used to generate large bacterial mutant populations with the aim that each mutant strain in the population carries a single transposon insertion containing a unique DNA bar code at a unique location. Relative abundance of each mutant strain changes depending on the impact of the underlying gene mutation on the fitness of that strain. Computational modeling of metabolic networks has been useful in studying microbial metabolism and developing tools for many applications like metabolic engineering, drug discovery and adaptive evolution studies. We hypothesize that incorporating more experimental data into a model will improve the predictive capability of the model. Earlier studies have shown that the reaction flux distribution of an organism after perturbations (gene deletions) were found to be very close to the wildtype flux distribution. Hence, we propose a reverse approach where a better quantitative estimate of the wildtype reaction flux distribution is one that is closest to the flux distributions of the large number of experimentally measured knockout mutants from the RB-Tnseq database. 22 Indo-US Science & Technology Forum Jyotsna Misra Gautam Buddha University, Greater Noida Structural Studies of the Yeast Spindle Pole Body Mentor Dr. Mark Seeger University of Wisconsin-Madison The spindle pole body (SPB) is the microtubule organizing centre of budding yeast, which is similar to the centrosomes present in eukaryotes. The spindle pole body is a cylindrical organelle which is embedded in the nuclear envelope and consists of three plaques: an outer plaque that faces the cytoplasm, an inner plaque that faces the nucleoplasm and a central plaque that interacts with the nuclear membrane. Spc 42, Spc 110, Spc 29, calmodulin are the main proteins which constitute the central plaque of the spindle pole body. The structures of these proteins and how they interact with each other are unknown. Spc 42 is an essential coiled coil protein that forms the central core of the SPB. Under Dr. Mark Seeger’s guidance at University of Wisconsin (Department of Biochemistry), my aim was to determine the oligomerization state of C–terminus of Spc 42 protein using X- ray crystallography. Giving Wings to Talent | Student Symposium 23 Kaivalya Molugu Indian Institute of Science, Bangalore Structural Understanding of Aryl Hydrocarbon Receptor (AHR), a Potential Drug Target for Cancer Mentor Yongna Xing University of Wisconsin - Madison Aryl hydrocarbon receptor (AHR) is a cytosolic transcription factor that mediates cellular responses to diverse environmental chemicals and endogenous metabolites. It has been shown to play an important role in toxicity response, and normal immune and cardiovascular functions, with important implication for cancer and autoimmune diseases. Increasing experimental data provides substantial support for an association between abnormal AHR function and cancer, implicating that AHR might be a potential drug-interfering target. Determining the structure of AHR may provide useful insights into this potential. However, the structure of AHR has not yet been determined completely due to various problems associated with its stability and solubility during the process of crystallization to determine its structure. We attempt to tackle this problem by expressing AHR along with another protein called ARNT (Aryl hydrocarbon Receptor Nuclear Translocator protein), with which AHR dimerises in vivo. We hypothesize that the AHR-ARNT dimer complex will be more stable and better soluble making it a better candidate for crystallization and elucidation of the structure of AHR. 24 Indo-US Science & Technology Forum Kalki Kukreja Indian Institute of Technology, Delhi Characterizing the Ribosome Association of Yeast Protein Stf2 During Acute Stress Mentor Yinuo Julia Wang Massachusetts Institute of Technology, Cambridge Ribosomes are universally conserved macromolecular machines that carry out proteins synthesis. Increasing evidence indicates heterogeneity in ribosome composition from organisms across all kingdoms of life. A proteomic study of yeast ribosomes identified translation machinery associated (TMA) proteins bound to a subset of ribosomes that could potentially modulate their function under certain conditions. During glucose starvation, our stress model system which causes pervasive and dramatic changes in the transcriptome and the translatome of budding yeast Saccharomyces cerevisiae, the expression of one of the TMA proteins, TMA10 increases amidst a global decrease in ribosomal protein levels. We have discovered a new ribosomeassociated protein, Stf2, a paralog of TMA10, which specifically binds to ribosomes following acute starvation. Though TMA10 and Stf2 share 65 percent sequence identity and 81 percent similarity, but intriguingly they behave differently in the context of ribosome association. While TMA10 is constitutively associated to ribosomes, Stf2 gets inducibly associated to ribosomes in acute glucose starvation. We created several mutations in STF2 to find out the amino acid residues responsible for this difference in the two proteins. We performed quantitative western blots on sucrose gradient fractions of strains bearing both mutant and endogenous STF2 to measure perturbations in mutant STF2 association with ribosomes in rich medium and glucose starvation. Work is ongoing to identify the necessary residues for its inducible ribosome association and the functional consequences thereof for translational adaptation to stress. Giving Wings to Talent | Student Symposium 25 Kanmani Chandra Rajan Anna University, Chennai Cloning Different Fusion Proteins with Degrons, Expression and Study of Their Degradation by FtsH Mentor Heedeok Hong Michigan State University, East Lansing In general, there is less understanding of membrane proteins comparing the huge knowledge base of cytosolic proteins and research in Dr. Heedeok Hong’s lab is an effort to understand the working of membrane protein degradation machinery using FtsH as a model. Degrons (or Degradation tags) are recognition motifs in proteins, which direct the selective starting point of degradation. In this study, my objective is to clone different constructs of fusion proteins with degrons in pBAD/HisA expression vector, express and study the degradation of these protein constructs by FtsH which is a membrane integrated ATPdependent E.coli protease. My work also involves creating unstable mutants of proteins that would be used as substrates for studying FtsH. At the end of this work, we would be able to understand the role of various degrons in initiating degradation of the constructed fusion proteins and also the influence of stability of the substrate over its degradation by FtsH. 26 Indo-US Science & Technology Forum Karen Thulasi Devendrakumar Tamil Nadu Agricultural University, Coimbatore Transgenic Corn Expressing Oleosin and Wrinkled1 Transcription Factor- A System for Increased Oil Production in Corn Leaves Mentor Mariam Sticklen Michigan State University, East Lansing Corn is the major crop in USA- for both food and fuel. It is used for the production of the biofuel ethanol. For ethanol production only the cellulosic matter in corn is used but if oil is produced in the vegetative tissues in the leaves too then the corn stover can be used for both oil and biofuel (ethanol) production. Research has shown that oil is produced in leaves but it is being degraded. Thus we needed to find a way to prevent that degradation Thus in Dr. Sticklen’s lab I worked on creating transgenic corn containing Arabidopsis thaliana- dgat and pdat, sesame oleosin gene and wri1 gene. The genes are equipped with strong promotersrice actin and CaMV35s promoters. The genes pdat and dgat (diacylglycerol acyltransferase (DGAT) and phospholipid: diacylglycerol acyltransferase (PDAT)) have a role in the biosynthetic pathway for triglyceride production and introducing gene constructs with strong promoters leads to an increase in oil production. The most important gene being used is the oleosin which protects the oil from the action of lipases. The Wri1 is a transcription factor which up-regulates the transcription of proteins involved in oil biosynthesis there causing oil accumulation. The transgenic plants show an increased level of oil production and improved oil stability. Giving Wings to Talent | Student Symposium 27 Kaustav Bera Indian Institute of Technology, Kharagpur Micro Pillar Embedded Channels for Probing Adhesion and Deformability of Red Blood Cells Mentor Umut Gurkan Case Western Reserve University, Cleveland At Case Biomanufacturing and Microfabrication Laboratory (CASE-BML), a number of novel micro-engineered devices are being developed for disease monitoring and diagnosis. My summer research at CASE-BML was focused at developing a micro engineered device encompassing endothelial protein coated micropillar arrays inside a microfluidic channel for probing red blood cell deformability and adhesion. During this internship I was involved in: (1) fabrication of the devices using photolithography, soft lithography, and reactive ion etching, (2) performing validation experiments with microbeads, (2) surface immobilization of endothelial proteins, and (4) running adhesion and deformability experiments with clinical blood samples from patients with sickle cell. The potential use of the microchip as a point of care diagnostic device was also investigated. 28 Indo-US Science & Technology Forum Kshitij Agarwal Indian Institute of Technology Kanpur, UP Identification and Differentiation in Human Hand Gripping Patterns Using EMG and Tactile Sensing Mentor Nitish V. Thakor Johns Hopkins University, Baltimore, MD It has been noticed that several commercially available upper limb prosthesis are lacking the ability to grip different objects effectively if only electromyography (EMG) controlling mechanisms are applied. In this study we have looked into variability of shape, size and weight of an object and the type of grip on the EMG patterns from forearm muscles. Objects such as a book, pen, pliers, screw driver, tape and ruler were chosen because they are different in shape and size and are also involved in daily activities. Our hypothesis is that different objects will show different EMG patterns as the force required for that grip is different for each object. Also for each object different combinations of muscles can be used as shape, size and geometry of objects is different thus allowing for differentiation of the EMG signals. These EMG patterns were then analysed, compared and classified into different categories and we were able to get a differentiated EMG signal based on the different objects. We have also identify different pressure points on human hand while holding different objects. This study has shown that different objects produce unique EMG signals and those EMG signals can then be used as a classifier for gripping various objects by a prosthesis. Giving Wings to Talent | Student Symposium 29 Navneet Singh GGS Indraprastha University, Delhi Structure/Function Analysis of TraR, An RNA Polymerase Regulator Mentor Richard L. Gourse University of Wisconsin-Madison Prokaryotic gene expression regulation has been well studied at the level of transcription initiation in Escherichia coli. Transcription initiation is controlled by DNA binding factors and/or factors that directly bind RNA polymerase. TraR, encoded on the conjugational plasmid F’, regulates RNA polymerase activity and can up-regulate or down-regulate gene expression depending on the promoter. The secondary structure of TraR is predicted to consist of a long helical structure at the N-terminal end that may protrude into the secondary channel of RNA polymerase and thereby modulate its activity. In order to elucidate the molecular mechanism by which TraR modulates transcription initiation, we undertook this study to identify the amino acid residues within TraR that are critical for its structure/function. We constructed six independent mutations via sitedirected mutagenesis and tested them further to understand the impact of these mutations on TraR’s structure and function in vivo. 30 Indo-US Science & Technology Forum Naveen Gangadharan Christian Medical College, Vellore Multi Modal Mechanical Ventilator Mentor John G. Webster University of Wisconsin-Madison Working in the Medow’s Lab, UW Hospital, the goal is to design and implement a prototype of Multi-Modal Mechanical Ventilator, capable of switching from the Conventionalmode of Ventilation(CV) to the High-Frequency-mode of Ventilation(HFV), delivering high frequency, low pressure, smaller gas volumes to mitigate pressure induced lung injury, without much increase in the carbon dioxide concentration. The existing conventional mode of ventilation delivers huge volumes of gases continuously at high pressures to the patient that, over time, it can cause volutrauma and barotrauma that can be dangerous to the lungs and hence in such cases the doctors prefer to switch the patient to a different high frequency machine that delivers small volumes to prevent this risk, but to maintain the same ventilation volume, working at a higher frequency. But, during the transition time between disconnecting the conventional machine and connecting the patient to the high frequency machine, there is a build-up of CO2 concentration in the patient. So, the project aims at incorporating both these modes of ventilation in the same machine thereby reducing the transition time and controlling the CO2 build-up and also ensuring that there is no ventilator induced lung injury by using low pressure, small gas volumes. A micro-controller based control method is employed to regulate the flow valves and amplifier to automatically and adaptively change the frequency, gas volume and pressure so that it is able to switch from conventional to high frequency mode working at the resonant frequency at which the ventilation tidal volume is high with minimum pressure cost. Giving Wings to Talent | Student Symposium 31 Priya Chittur Anna University, Chennai Nonspecific Binding of RNAP to Single Stranded Ends of Cy3/Cy5 –Labeled λPR Promoter DNA Mentor M. Thomas Record University of Wisconsin-Madison Förster resonance energy transfer (FRET) and protein-induced fluorescence enhancement (PIFE) are techniques used to study the dynamics of macromolecules through the observation of fluorophore emission. Cyanine dyes are particularly amenable to both PIFE and FRET studies and hence are prevalent in the study of RNA polymerase (RNAP)promoter DNA interactions during transcription initiation. However, the location of the dye within the DNA and its orientational freedom are integral in determining the dynamics that can be observed. Previous data from the lab suggested that during PCR-based amplification of DNA containing internally located Cy3 or Cy5 dye, the DNA polymerase would not read past the dye, resulting in single stranded ends on the amplified molecules. Further FRET experiments at 2°C had also suggested that these ends may be a hindrance by causing nonspecific binding to RNAP. We collected stop-flow and equilibrium fluorescence data for E.coli RNAP and Cy3/ Cy5-labeled λPR promoter DNA and attempted to vary the sequences and lengths of the dyecontaining primers to better understand their role in nonspecific RNAP binding and DNA wrapping. 32 Indo-US Science & Technology Forum Reshma Jamal Birla Institute of Technology and Science, Hyderabad Identification of Liver Specific Roles for FXR and SHP Mentor Sayeepriyadharshini Anakk University of Illinois at Urbana Champaign Liver diseases have been increasingly threatening in today’s world. Most of the liver diseases are due to impaired bile acid synthesis. Bile acid homeostasis is tightly regulated by two nuclear receptors FXR (farnesoid X receptor) and SHP ( small heterodimer partner).Contrary to the study of whole body knockout of these receptors, we wanted to study the effect of bile acid synthesis and its transport and enterohepatic circulation by knocking out FXR and SHP specifically in liver and study its pathological outcomes. We found FXR and SHP knockout mice showed impaired bile acid synthesis, cholestasis and liver injury like bile duct inflammation, fibrosis, steatosis and increased hepatocyte proliferation. Giving Wings to Talent | Student Symposium 33 Ranjan Mukherjee Indian Institute of Technology, Kharagpur Selection of High Affinity Nucleic Acids to Counter Influenza Virus Mentor Aseem Z. Ansari University of Wisconsin–Madison Selection of high affinity nucleic acids, known as ‘aptamers’, targeting toxins, pathogens and tumour cells is an upcoming promising technique to develop effective therapy or diagnostic tool for the diseases caused by them. I have been working under Dr. Aseem Ansari at University of Wisconsin-Madison to develop such aptamers against influenza or ‘flu’ virus using engineered flu virus- Haemagluttinin protein designed by Dr. Raghavan Varadarajan’s lab at IISc Bangalore. Though there are vaccines available for the seasonal flu but they are effective only for about a year as the outer protein structure of the flu virus changes within a year, which the vaccine induced antibodies target. So developing aptamers against this engineered protein constructed from the relatively conserved or non-changing regions of the Haemagluttinin protein, which the virus uses to enter respiratory tract cells, can enable us to block viral entry or degrade the virus, irrespective of annual variations in virus strains and so provide protection for longer term. Also these aptamers can be used as diagnostic sensors to detect flu virus strains. 34 Indo-US Science & Technology Forum Ritu Roy Chowdhury Indian Institute of Science Education and Research, Mohali Investigating the Role of Inhibitory Interneurons in Information Processing in the Mouse Visual Cortex (V1) Mentor Mriganka Sur Massachusetts Institute of Technology, Cambridge The landmark experiments by Hubel and Wiesel showed how complex representations could be constructed from simple features of a stimulus along the visual pathway. How this sensory information gets processed in the cortical layers of the primary visual cortex (V1) is an important question in neuroscience. A diverse population of inhibitory interneurons in the primary visual cortex (V1) are known to play crucial roles in the cortical circuits that reliably process this information. Our aim in this study was to understand how inhibition by two classes of inhibitory interneurons namely, Parvalbumin (PV) and Somatostatin (SOM) control reliable coding. In order to answer this question, our approach was to first identify regions that provide input to SOM interneurons in V1. Next, we saw what effect silencing these inhibitory interneurons had on the response properties of layer 2/3 excitatory neurons to natural scene stimuli. To this end, we performed two-photon calcium imaging in head-fixed awake SOM-Cre/PV-Cre mice that express designer GPCRs (hM4Di), which causes neuronal silencing on application of an inert ligand (Clozapine-N-Oxide). Altogether, our results reveal the importance of inhibition on reliable coding and also indicate presence of local and inter-areal inputs to SOM interneurons in V1 that could play a role in response modulation and integration of sensory information, in the context of visual processing. Giving Wings to Talent | Student Symposium 35 Shravanti Krishna Suresh Anna University, Chennai Spatial Evolution of Antigenic Sites in Human Influenza Viruses - H3N2 Mentor Kaja Abbas Virginia Tech., Blacksburg The objectives of the study were to determine the origin, evolutionary dynamics and migration patterns of human influenza A H3N2 virus. The substitutions causing large antigenic changes in H3N2 evolution have recently been identified. Despite multiple lineages and genotypes that were detected by previous studies, the migration dynamics of the H3N2 virus is unclear. By drawing maximum likelihood trees, the evolutionary relationships were determined. The origin of the virus was determined using Bayesian Phylogeography framework. The animation of the viral dispersal was then visualized using Google Earth after the appropriate conversion of the annotated MCC trees. Using Bayesian Phylogeography framework we showed that the H3N2 virus may have originated from. Demographic patterns give us the inference that the virus may have evolved into multiple diverse lineages due to faster acquisition of mutations that seem to occur in a more punctuated manner when compared to other viruses. Our analyses indicate that the dissemination of the virus occurs in a rapid manner which when visualised on a global scale can extend its scope towards better prevention strategies if employed at the origin of outbreak. 36 Indo-US Science & Technology Forum Saakshi Parolia Jadavpur University, Kolkata Partial Replacement of Wheat with Ancient Gluten-Free Grains for Naan Formulation (Traditional Indian Bread) Mentor Kurt Rosentrater Iowa State University, Ames Wheat is a staple for most bread formulations but there are rising concerns with its gluten content and nutritional value lost to its processing. The primary objective of the research was to develop a fortified gluten free alternative to the wheat based naan bread. The research also aimed to study the effect of substitution by quinoa and teff on the chemical and physical properties of naan bread. For the same substitution rates, quinoa and teff substituted breads were compared on the basis of color, water activity, density, texture, nutrient composition and sensory acceptance. Results showed that the gluten content of each flour mix had a significant effect on the different parameters measured. Protein, fat and ash content was highest in naan made with 100% quinoa, while that made with 100% teff had the highest fiber and second highest ash content. L* value recorded was highest for 25% quinoa which was even higher than the control made with 100% all-purpose flour. Texture profile analysis done on staling naans also revealed additional information on starch degradation and estimated shelf life. Fortifying wheat with different flours changed the physical and chemical properties of the final product predominantly. Giving Wings to Talent | Student Symposium 37 Saranya Giridharan R V College of Engineering, Bangalore Engineering E. Coli for Production of Succinate by Soybean Wastes Mentor George N Bennett Rice University, Houston Succinic acid has been considered an important specialty chemical that can be produced by microorganisms. However, the placement of this molecule on the US Department of Energy (DOE) list of twelve platform chemicals from biomass has been generated widespread attention toward biobased succinate manufacturing. Escherichia coli strains HL27659k and HL27659k-pKK313 were examined for succinate production under aerobic conditions using galactose, sucrose, raffinose, stachyose and mixtures of these sugars extracted from soybean meal and soy solubles. Under Dr. George N Bennett guidance at Rice University, I worked on adaptation of these two strains in varying mixtures of soy hydrolysate : LB media and corresponding glycerol stocks are maintained for future studies of these mutants for succinic acid production. The presence of higher concentration of galactose, led to the construction of strains by knocking out of genes responsible for repression of gal operon expression and glucose intake for higher conversion of carbon source into succinate. In future studies these strains are subjected to clonetegration of gal operon into E.coli chromosome and verified for efficient use of carbon source present in the soybean meal to produce succinate by fermentation. 38 Indo-US Science & Technology Forum Shreya Nahata Indian Institute of Technology Roorkee, Uttarakhand Investigating the Role of Mitochondrial DNA Reduction in the Induction of Cancer Stem-Like Cells in Esophageal Squamous Cell Carcinoma Mentor Narayan G. Avadhani University of Pennsylvania, Philadelphia Recent study from our laboratory showed that reducing mitochondrial DNA (mtDNA) copy number in human mammary cancer cell lines resulted in epithelial to mesenchymal transition (EMT). Interestingly, mtDNA copy number reduction resulted in the formation of breast cancer stemlike cells [Guha et al 2013]. Based on this exciting finding, our goal was to investigate if mtDNA copy number reduction in esophageal cancer cells (TE11) induced cancer stem- like cells, similar to mammary epithelial cells. We used parental and ethidium bromide treated mtDNA- depleted TE11 cells for our experiments. Interestingly, both of these formed a high population of non-adherent “floater” cells similar to mammary epithelial cells where the formation of similar “floater” cell population expressing cancer stem cell markers was reported by our lab. We cultured these cells and conducted various gene expression analysis studies. We observed that expression of various cancer stem cell markers like ALDH1, and CD44 were highly up-regulated in the floater cells formed by the mtDNA- depleted TE11 cells compared to adherent cell population. These results were indicative of the role of mtDNA reduction in the induction of cancer stem-like cells in esophageal cancer cells. Floater cells from both parental and mtDNA-depleted TE11 cells were also tested for their ability to form spheroids and their stemness and self-renewal potential needs to be investigated further in successive generations. Giving Wings to Talent | Student Symposium 39 Shreya Gupta Indian Institute of Technology, Varanasi In Vitro Blood Brain Barrier to Study Cancer Invasion Mechanism and Characterisation of Penetration Properties of Anti-Cancer Drugs Mentor Aaron Baker University of Texas, Austin Cancer metastasise occur when cancer spreads from one part to other mainly through blood. Breast cancer most commonly spreads to the bone, lungs, liver, and brain. The main obstacle to the drug delivery into the brain is the existence of blood brain barrier (BBB). The aim was to develop in vitro BBB to study the cancer invasion mechanism and characterisation of penetration properties of anti-cancer drugs. The model was built on neuro-probe chamber to replicate in vivo BBB model. The shear stress was provided by the high throughput cone and plate device. The experiments were conducted to calculate permeability of in vitro BBB and study cancer invasion with static and dynamic conditions. 40 Indo-US Science & Technology Forum Swaathi Ratna S Anna University, Chennai Semi Automated Backbone Assignment – SPARKY Mentor Hesamaddin Dashti University of Wisconsin- Madison The National Magnetic Resonance Facility at Madison (NMRFAM) is an NMR spectrometer facility where studies on metabolomics, nucleic acids, large protein molecules and other biomolecules are being carried out. The investigation and analysis of the spectroscopic data is done with the help of many software tools. NMRFAM-SPARKY is one such software that is used in the chemical shift assignment and structure determination of proteins. Chemical shift assignment (backbone and side chain assignments) for proteins is carried out using SPARKY. While side chain assignment is automated, backbone assignment which is the first stage of the process is done manually. Backbone assignment involves matching resonances from at least two different 3D spectra (eg. HNCACB, CBCACONH, HNCA, HNCOCA etc.) in a sequential manner, in order to establish the right protein sequence. This is essential for further studies on the structure and folding of proteins. As the protein size becomes larger, the assignment process becomes cumbersome. So a new extension package that could make the backbone assignment a lot simpler and less time consuming was developed. It is semi automated because there are stages in the process where human intellect is essential and decisions cannot be taken by the computer. Giving Wings to Talent | Student Symposium 41 Sruti Devendran National Institute of Technology, Calicut Exploration of Morphological Characters in Malvaceae Mentor Surangi Punyasena University of Illinois at Urbana Champaign Exploration of the morphological characters is important because they serve as a token for identifying the plant species. Malvaceae is chosen because it is palynologically heterogeneous. The range of variation in characters is very wide. A systemic analysis of these features will help in understanding the relationship between phylogenetic evolution and the character evolution of these features. The character matrix is built by scoring for each of the observed character for the images. The character matrix and the phylogenetic tree of the species is imported in R, and comparative analysis is done. The statistical tests indicate that all the characters show a significant phylogenetic signal. It also indicates that position of the apertures show a stronger phylogenetic signal (p=0.764) and the evolution of Porate features does not show a significant phylogenetic signal. Features in these images can be used to built machine learning algorithm to automate pollen identification processes. Most of the pollen grains are influenced by strong selective forces involved in various reproductive processes, helping us to find the effect of climate change on the plant species. 42 Indo-US Science & Technology Forum Urvi Nikhil Shroff Savitribai Phule Pune University Role of Macula Densa Cells in Nephron Remodelling and Repair Mentor Janos Peti-Peterdi University of Southern California, Los Angeles The Juxtaglomerular Apparatus (JGA), which consists of the Macula Densa (MD) cell plaque, juxtaglomerular cells and extraglomerular mesangial cells, is a microscopic structure which controls fluid and salt balance in the body via the ReninAngiotensin system and tubular glomerular feedback. This was considered to be the function of the MD cells. However, we have recently identified a rather unconventional role of the MD cells- nephron repair and remodelling. To study this role of MD cells, we established two transgenic mouse models- nNOS mTmG and NG2 Tomato. NG2 Tomato mice were stimulated under No Salt conditions and Enalapril (ACE inhibitor) for 2 weeks. Frozen sections of kidney tissue were prepared for both control and treated mice and then multi photon microscopy was performed to observe the fluorescent cells. It was observed that upon induction there is a significant increase in the number of Renin+ cells as well as NG2+ cells. After treatment, we observed a 5-fold increase in the renal interstitial density of NG2+ cells (from 5.9±1.1 in control to 30.2±4.5 cells per field after No Salt diet and ACE inhibitor treatment), as well as the migration of NG2+ cells towards the MD and into the glomerular parietal layer and mesangium. Co-localization of endogenous NG2-Tomato fluorescence with immunofluorescence of renin revealed a significant increase in the proportion of NG2+ renin-expressing cells from 22.0%±6.6 to 70.6%±7.4 (p<0.05) after No Salt diet and ACE inhibitor treatment. Our results suggest that NG2+ pericytes may be an important progenitor cell population in the kidney. In response to MD-derived (from nNOS) paracrine factors, NG2+ cells from the renal interstitium proliferate and migrate towards the MD along the afferent arteriole and via the vascular pole into the glomerular mesangium and parietal layer. We also attempted to establish a MD cell line by isolating the cortical tissue of the kidneys of nNOS mTmG mice and performing FACS. The GFP+ cells were sorted and immortalised using hTERT and cultured in MMDD1 medium. Since there are both Tomato+ and GFP+ cells, these cells need to be resorted to establish a pure MD cell line. In conclusion, MD cells play new important roles in the maintenance and remodelling of the glomerulus and the renal interstitium in health and disease. Giving Wings to Talent | Student Symposium 43 Vaibhav Dnyandev Phad Indian Institute of Technology, Hyderabad Light Delivery Modeling and Simulations in a 3D Monte Carlo Simulation Platform in Optogenetics. Mentor Kevin Eliceiri University of Wisconsin-Madison Optogenetics is a rapidly emerging technique that can use a combination of genetics and optical approaches to control the behavior of individual neurons in living tissue. Due the rapid adoption of these techniques by the neuroscience community there is great need for improved technologies to improve its use in biological system. One particular need is improvement for how the optogenetic light penetrates the brain tissue. OptogenSIM is a 3D open-source simulation platform for optimizing light delivery design in optogenetic design developed at LOCI at UW-Madison, which integrates a voxelbased 3D Monte Carlo model, generic optical properties models of brain tissues, and a welldefined 3D mouse brain tissue atlas. However, some typical light delivery approaches are not fully established or implemented in this tool so far, such as the defocused Gaussian light source. There are some light beam models available but there is disagreement and discrepancies in the models. Hence, a model validation and development are needed. In addition, it is not clear how significantly the light delivery parameters or boundary conditions can affect the light distribution in the brain tissue. Resolving the foregoing questions, we are providing a more practical solution and instructions for light delivery design. 44 Indo-US Science & Technology Forum Vaishali Yadav Indian Institute of Technology Bombay, Mumbai Study the Pattern of CamKII Protein Synthesis Associated with LTM Mentor Sam Kunes Harvard University, Cambridge Pattern of protein synthesis is related to the formation of a specific memory. We studied the expression pattern of Calcium/ Calmodulin-dependent kinase II (CamKII) protein in Drosophila Melanogaster. CamKII is synthesized at the synapses and is required for memory formation. We aimed at looking at the differences in the expression of CamKII protein between trained and naïve animals. For studying the effect of training on CamKII expression, we expressed EYFP::CamKII fusion protein in the Kenyon cells and in the Mushroom Body Output Neurons (MBON) separately in Drosophila. Further, we know that let-7 miRNA expression in Drosophila is regulated by neural activity, so we expressed let-7 miRNA hairpin in the Kenyon cells and EYFP::CamKII fusion protein in the MBON in Drosophila and looked at the changes in the expression of the fusion protein in MBON. We hypothesize that if the hairpin could translocate from the Kenyon cells to the MBON, there would be a down regulation of CamKII fusion protein there. With a similar hypothesis, we expressed CamKII fusion protein in the Kenyon cells and the hairpin in the dopaminergic neurons in Drosophila. Along with this we also generated flies expressing the hairpin in the Kenyon cells and CamKII fusion protein in the projection neurons and study the expression of fusion protein in both the cases. Giving Wings to Talent | Student Symposium 45 Vaishali Balachandran SASTRA University, Thanjavur Role of Human Annexin A1 Protein in Wound Healing Mentor William Bement University of Wisconsin-Madison All cells are subjected to chemically or mechanically challenging environments. In case of exercise, accidents etc., there is a high possibility of cell membrane damage. Single cell wound healing is a process of membrane repair which prevents the cell from oozing out its contents. The importance of this process has been implicated in diseases like muscular dystrophy, where genetic mutations lead to improper membrane repair thereby imparting fragility to the muscle cell. One of the proteins that seems to be involved in membrane repair is hAnnexin A1 (hANXA1) whose function is to bring/hold together membrane structures composed of phospholipids. The membrane binding ability of this protein is shown to be calcium dependent. But the exact mechanism of action to promote membrane repair is still unknown. At Dr.Bement’s lab, we intend to understand the role of Annexin A1 in wound healing in frog oocytes. 46 Indo-US Science & Technology Forum Vikramjit Lahiri University of Calcutta, Kolkata An In-Vivo Methylcap Sequencing Method in Drosophila Mentor Laura Buttitta University of Michigan, Ann Arbor Chromatin structure plays a very important role in the regulation of gene expression in eukaryotes. Actively transcribed genes exhibit open chromatin states at their regulatory regions, which are consequently accessible to enzymes and proteins that facilitate transcription. Sparsely transcribed genes exhibit closed chromatin states where regulatory elements are inaccessible. Mapping the chromatin accessibility landscape can therefore give information about the potential gene expression profile for each tissue or cell type during development. My project involved developing a new in vivo method for mapping chromatin states by “MethylCapture” Sequencing. I used transgenic Drosophila melanogaster transiently expressing low levels of the bacterial methyltransferase M. SssI in dorsal wing precursor cells. The hypothesis was that open chromatin would allow M. SssI to methylate DNA while closed chromatin would be inaccessible to the enzyme. Cell cycle genes, according to available data, undergo a change in chromatin conformation as the prospective dorsal wing cells go from a mitotic state in the third instar larva to a post-mitotic state in the late pupa. I examined the methylation profiles of the regulatory regions of two cell cycle genes – Cyclin E and String – along with control genes. I used methylation sensitive restriction digestion followed by PCR and selective enrichment of methylated DNA regions by affinity binding (“MethylCapture”) followed by Real Time PCR. My results thus far validate the technique, but suggest that chromatin accessibility may not be the only factor determining the level of genomic methylation in this assay. Giving Wings to Talent | Student Symposium 47 Science and Engineering Research Board Department of Science and Technology Govt. of India Indo-US Science and Technology Forum To nurture future innovators and thought leaders, the Science & Engineering Board, Department of Science and Technology, Govt. of India, the Indo-U.S. Science and Technology Forum and WINStep Forward have partnered to develop a dynamic and transformative student exchange program between premier institutions in India and the United States. The S. N. Bose Scholars Program is named in honor of Satyendra Nath Bose (1894 - 1974), a visionary Indian physicist best known for his work on quantum mechanics in the early 1920s. The class of particles that obey Bose-Einstein statistics, Bosons, was named after him. The S. N. Bose Scholars Program is envisaged to • • • • provide an opportunity to Indian students to experience world-class research facilities in leading U.S. institutions; encourage and motivate students to take up research as a career; pave the way for the next generation of pioneers and innovators in science and technology to interact with each other, and; build long-term R&D linkages and collaborations cutting across boundaries around the globe. Eligibility • • Indian citizens currently pursuing a Bachelors or Masters’ degree at a recognized institution of higher education and learning in India. Open to students of Atmospheric and Earth Sciences; Chemical Sciences; Engineering Sciences; Mathematical and Computational Sciences; and, Physical Sciences. Scholarship includes • • • Stipend Health Insurance Air-fare More information is available at http://www.iusstf.org/story/53-74-For-Indian-Students.html Aashiq Muhamed Indian Institute of Technology, Roorkee Dynamic Modelling an Energy Kite Mentor Sanjiva Lele Stanford University, California Conventional turbines have grown taller, heavier and have become expensive and complex to construct. Energy kites have received increased attention in recent years, owing to their lower costs and aerodynamics that can access stronger winds. While traction power kites have been explored several times in literature, airborne wind turbines have had fewer mentions. This project aims to investigate a five degree of freedom model for a tethered kite with an airborne wind turbine, developing on the ideas of Loyd (1980) and seeking to answer critical questions on the required control surfaces, trajectory optimisation and power generation. 52 Indo-US Science & Technology Forum Aashish Bhardwaj Indian Institute of Technology, Ropar Stiffness Reduction Due to Waviness in Lattice Members of Micro-Lattices Mentor Dennis Kochmann California Institute of Technology, Pasadena For the new way of material development for lightweight structures, the hierarchical design structures are stressed upon to develop even large scale structures and utilizing the improved properties. To predict the behaviour at macro level it is necessary to fully understand the mechanics at the fundamental level which in this case are micro-lattices with bars as the building elements. The project is based on the effect of waviness in the bars on the stiffness that is present due to imperfections or machine vibrations in making of micro level architecture. The simulations based project gives an insight into the percentage reduction in axial stiffness of lattice members which have to be taken care of, at the fundamental level to cater to the properties required at bulk level. The Finite Element method is used to descritize the geometry and calculate the axial stiffness. Giving Wings to Talent | Student Symposium 53 Abhishek Kumar National Institute of Technology, Jamshedpur Insight into Supercavity Physics Mentor Jiarong Hong University of Minnesota, Minneapolis Drag/skin friction reduction on the surface of marine vehicles through supercavitation, is one such area of modern interest with vast potential applications. Supercavitation refers to a condition in which an underwater moving vehicle is enveloped by a continuous gaseous cavity. There is a dramatic decrease in hydrodynamic drag due to minimization of surface area exposed to liquid. Various ongoing studies on supercavitation are being carried out at specially constructed water tunnels. In the project, the comparison of trends of air entrainment for two experimental models (FCM & CCM ) were reported and physical insights into the underlying factors were provided. This comparison is of significant importance because we need to understand the difference in cavity formation and collapse patterns. It might also provide some insight into the suitability of FCM/ CCM in conducting specific ventilated supercavitation studies. Underwater noise limits military effectiveness of naval systems. Noise in supercavity is another such area which has not been dealt in much detail, yet is of considerable importance. Acoustic characteristics associated with different types of supercavity closure models will provide us more insight into their behaviour in practical conditions, and also provide a base for deducing noise reduction techniques for the safety of the high speed supercavitating vehicles. 54 Indo-US Science & Technology Forum Aditi Chatterjee Indian Institute of Technology, Kharagpur Understanding the Kinetics of Isotopic Exchange Between Propane and Water When Exposed to Different Catalysts and Temperature for a Range of Time Mentor John Eiler California Institute of Technology, Pasadena The aim of the project was to understand the kinetic constraints of the isotopic exchange between propane and water under a range of conditions by performing experiments and mass spectrometric measurements. The samples were prepared with different catalysts each time, and subjected to various temperature. Then they were allowed to react for a specific range of time. The mass spectrometric data, plots of reaction progress showed that the rate of reaction varied with the position of the atoms in the molecule. Giving Wings to Talent | Student Symposium 55 Aditi Raghunathan Indian institute of Technology Madras, Chennai Globally Consistent Estimators for Learning Under Indirect Supervision Mentor Percy Liang Stanford University, California In several machine learning applications, we are required to estimate the parameters of a distribution that we do not have access to directly. Commonly referred to as direct supervision - learning under this setting of partial/hidden variables has difficulties associated with it - the heuristics employed in practice are not guaranteed to give the best solution. A central question is to provide methods that are computationally efficient and guaranteed to obtain the best possible solution. My work was directed towards the same, and we came up with a simple estimator that is based on spectral decomposition of matrices and simple inversion to retrieve globally opimal parameters for a class of indirect supervisions. We also precisely characterised the linear algebraic interactions between the different entities involved that allow the efficient estimation. We are currently running experiments to investigate the applicability of this theoretically powerful approach to solve real world problem, with increased accuracy and lesser computation compared to other standard approaches. 56 Indo-US Science & Technology Forum Akshat Jain Panjab University, Chandigarh Hybrid Objects Mentor Pattie Maes Massachusetts Institute of Technology, Cambridge Hybrid Objects is a platform for interaction with everyday objects. It combines physical objects with the benefits of a flexible augmented user interface. This platform allows you to create Augmented Reality content with HTML tools, create Augmented Reality without any knowledge about 3D programming, connect the functionality of objects with a simple drag and drop paradigm and program your objects with Arduino. Every object that you build with this platform, will be compatible and can be connected with any other object ever built with the Hybrid Objects platform. The possible use cases would be in smart homes of the future where one could program the physical objects around them and thus modify their behaviour according to our needs. It especially eases the human effort for multiple physical interactions at the same time, which could be done digitally. The entire platform uses Web standards and there are no proprietary protocols. Hybrid Objects uses the same technologies all your favourite webpages use to communicate. All data about interfaces and connections are stored within the objects themselves. Giving Wings to Talent | Student Symposium 57 Aishwarya Mahant Kumar Rath Sardar Vallabhbhai National Institute of Technology, Surat Predicting Mean Velocity Profiles in Combined Fluid Porous Layer Systems. Mentor Mitul Luhar University of Southern California, Los Angeles The project deals with predicting the mean velocity profiles in combined fluid porous layer systems. The motivation of such a project is due to the transport phenomena in structures composed by a porous layer and an adjacent fluid. This transport phenomena is encountered in a wide range of industrial applications. Some of them are filtration process, storage of nuclear waste, environmental flow i.e. sea and river beds, Heat Exchangers, Bio inspired Design such as Bird Feathers are porous etc. Hence, there were different approaches dealing with the momentum transport at the fluid and porous interface but the appropriate boundary conditions are not known. There are number of models proposed for the momentum transport at the fluid porous interface. One among them is the simplest BJ model. The model provides a semi empirical slip boundary condition at the interface. Another alternative model was proposed using the Brinkman equation in the porous 58 layer. More complicated model were with the stress boundary condition which introduces interfacial jump condition at the interface. Using the numerical solution of such models the velocity profiles were predicted which matched the Experimental profiles. Another Experimental setup was done by replacing the porous medium by transparent glass beads with different permeabilities. The prediction of the velocity profile was done for different glass beads and different fluid heights. It was observed by analysis of the transition layer that the averaged horizontal velocity components decrease drastically within rather a small layer. This layer below the permeable interface represents the transition zone, referred to as the Brinkman layer. Below the interface there exists a critical point above this point the velocity increases monotonically whereas below it the velocity fluctuates randomly. This Agreement is found by the numerical results predicted, which matched the experimental results, and illustrated the velocity profiles. Indo-US Science & Technology Forum Student Symposium Apoorva Joshi Vellore Institute of Technology, Vellore Hardware and Design of a Visualization and Analysis Lab for Medical Imaging Applications Mentor Milan Sonka University of Iowa, Iowa City My goal during the internship was to work on the hardware setup and design of the Visualization and Analysis Lab. As conceptualized, the lab comprises three main components namely (a) a 3D display wall, (b) a 10-camera tracking system and (c) individual visualization stations for better tracking and data analysis. Tracking in the present case implies that the system shall allow tracking of the user’s head and react to head motion by adjusting the rendering of scenes accordingly, to facilitate immersion in virtual scenes. In addition, input devices are to be tracked, too, enabling 3D interaction and editing of visualized and analyzed 3D and higher-D (image) data. Efficient tracking is said to be done when the 10 cameras in the system are synchronized with each other and whole system is, in turn, synchronized with the visualization workstations. During the limited period of my internship, my primary objective was to understand how the synchronization works and create a suitable design for the same. This involved programming microcontrollers, testing the visualization software and writing appropriate user interfaces. Time constraints made me focus on accomplishing the following: • Understanding the synchronization at both levels of camera systems • Designing a layout for the 10 camera system for maximum coverage • Testing the visualization software • Determining timing and delay parameters of the camera systems • Assembling and program a microcontroller board for several crucial experiments to get more information about sampling rates of the visualization workstations • Documenting a proposed design for the user interface detailing the system requirements, components needed etc. It is expected that completing the above tasks would provide the necessary platform to further build upon and complete during establishment of the lab at a later stage. Giving Wings to Talent | Student Symposium 59 Alok Sharma Delhi University Electrostatics Modelling & Compressive Sensing Mentor Julie Mitchell University of Wisconsin-Madison I had the pleasure of doing two projects while I was part of the SN Bose Scholars Program. My first project was modelling and calculating the electrostatic potentials near a protein in sa little time as possible. Me and my mentor worked towards implementing an algorithm whose complexity was of the order of O(n*log(n)) compared to the previously implemented O(n*n) complexity. Using the new algorithm we were able to reduce the computation times exponentially without losing a lot of precision. Our algorithm produced values which correlated highly (>95%) with the actual values. My second project was on building a predictive model which could take as input, a given set (matrix) of drug and target interactions and from that table, it could predict future interactions if a new drug or target with some missing information is added to the table. We developed a number of techniques for this but two of them have shown promise and we are currently working on getting even better predictions. If we achieve what we are aiming for, it could be a great breakthrough in the road to drug discovery. 60 Indo-US Science & Technology Forum Arjun Vijeta Indian Institutes of Science Education and Research, Pune Chemoselective Active of sp3 vs sp3 C–H Bonds with Pd(II) Mentor Marisa C. Kozlowski University of Pennsylvania, Philadelphia Transition metals involvement has eased the way to synthesis C-C and C-X(O,N,S) bonds, which is highly useful in Natural product synthesis, biological active compounds and materials. Reporting one of the uncommon CSP3-CSP3 bond formation reaction with Pd(OAc)2 without involving any directing group for chelation of Pd complex. Optimisation of reaction solvent and oxidant is achieved by High through put Screening and HPLC analysis. Catalytic Pd(OAc)2 proceeded the reaction on involving other additives but product yield decreases. In this report, CSP3 active product is exclusively obtained, rather than CSP2 activated product even after the presence of nitrile and ester group to provide chelation to Pd(OAc)2. Double C-H bond activation of Pd(OAc)2 is remarkably selective for terminal methyl group of alkyl arenes solvent. Mechanistic studies indicate the intermediate of an ethyl cyano phenyl acetate dimer, obtained from oxidation with Pd(OAc)2, led to product formation. The examined reaction establishes the participation of common reaction solvents (e.g., toluene) in C−H activation chemistry. Giving Wings to Talent | Student Symposium 61 Aprameya Ganesh Prasad National Institute of Technology, Surathkal SPION Modification of Drug Loaded Nanoparticles for Theranostic Applications Mentor Yoon Yeo Purdue University, West Lafayette The project focused on synthesis of SPION-modified drug loaded NPs. Paclitaxel (PTX) was chosen as a model drug. The NPs were made of PLGA and were surface-modified with polydopamine and PEG (PLGApD-PEG NPs).The hypothesis of SPION modification of drug loaded NPs is the concept of theranostics. Using this approach, simultaneous diagnostic and therapeutic potential of the NPs can be realized. The drug-loaded PLGA NPs were modified in two ways. In the first set of experiments, both SPIONs and PTX were encapsulated in PLGA-pD-PEG NPs and named as IO/PTX@PLGA-pD-PEG NPs. In the second set of experiments, PTX-loaded NPs were surfacedecorated with SPIONs and PEG via polydopamine, named as PTX@PLGA-pD/IO-pD-PEG NPs. 62 PTX loaded in PLGA-pD-PEG NPs, called PTX@PLGA-pD-PEG NPs served as a control group. All the synthesized nanoparticles were approximately 150-200 nm in size with a spherical morphology. It was observed that the IO/PTX@ PLGA-pD-PEG NPs inhibited drug loading making it a poor choice for a theranostic vector. The drug loading in IO/PTX@PLGA-pDPEG NPs was determined to be 1-1.2% compared to 1.5-2% in the PTX@PLGA-pD-PEG NP control group. PTX@PLGA-pD/IO-pDPEG NPs were better candidates for achieving targeted delivery of the drug. On the other hand, it was found that surface modification by iron oxide resulted in a sustained release. This could be ascribed to a probable barrier effect. Indo-US Science & Technology Forum Ayush Tomar Delhi Technological University, New Delhi Visual Topic Networks in Social Networks Mentor Juergen Pfeffer Carnegie Mellon University, Pittsburgh Building better user relationship models in social networks has been an important topic of research. Similar users on social networks tend to share similar content. Images shared by Twitter users is an interesting way to represent user profiles and suggest new connections. The motivation of this project is to build relation model between Twitter users based on images, tweet and user properties, to measure closeness between users, which could be used to suggest new connections and enrich existing image data set on Twitter with new tags and image labels. The extensively labelled image data set thus generated could have many applications in image classification, advertising and sentiment analysis. The project combines ideas from digital image processing, machine learning and Social Network Analysis. Giving Wings to Talent | Student Symposium 63 Ashish Daga Indian Institute of Technology, Kharagpur Characterization of Two Phase Slug Flow Through a Heated Microchannel Mentor Suresh Garimella and Justin Weibel Purdue University, West Lafayette Slug flow is a commonly encountered flow regime in micro-channels due to the influence of surface tension and vapor confinement at small length scales. Owing to difficulties in generating a well-controlled and repeatable slug flow regime in a diabatic situation, numerical models which govern two phase slug flows have been verified against experimental benchmarks with difficulty. Creating a setup which can provide accurate, repeatable and controllable experimental data on slug flows is the main motivation behind the project. The main objective of the project is to obtain repeatable and controllable slug flow regimes by vapor injection into a saturated liquid stream and measure thermal properties such as pressure and temperature along high speed visualization aimed at capturing the influence of uniform heat transfer on bubble growth. The facility developed is capable of degassing the fluid, filtering and single phase liquid boiling visualization also. 64 Indo-US Science & Technology Forum Apala Chaudri Indian Institute of Technology, Kanpur Study of Telomerase Repeat Factors Mentor Taekjp Ha University of Illinois at Urbana Champaign The Ha Lab uses sophisticated physical techniques to study the nanolevel processes of life. The technique I worked on this summer is called SiMPull: Single molecule pull-down experiments. The technique involves drilling and ‘Pegylation’ of slides as a first step which basically means passivating the surface of the quarts slides with PEG (polyethylene glycol) molecules. After this, flow-chambers are constructed on the slides using double-sided tape. Through the flow chambers, NeutrAvidin and then antibody solutions are flown through of required concentrations. NeutrAvidin sticks to the PEG while the biotinylated antibody sticks to another binding domain of the NeutrAvidin molecule (one molecule of NeutrAvidin can bind up to 4 molecules of biotin). After this, cell lysates containing the desired fluorescent-protein tagged protein molecules are flown through the channels; these are the proteins we want to study. The proteins expressed inthe lysate bind specifically to the antibody on the surface and can be imaged under the singlemolecule fluorescence microscope to shed light on protein-protein interactions. If the proteinbinding to the antibody forms a complex with others inside the cells, it will “pull-down” those with it on the slide. These can be studied using the TIR (Total internal reflection) microscope and analyzed using MATLAB to reveal whether the proteins show specific binding and how manymolecules are there in the complex. I worked with a special class of proteins which were expressed in and extracted from humanosteosarcoma (bone cancer) cells. These are the TRF( Telomerase repeat factors)constituents ofthe Shelterin proteins that protect the telomere of mammalian chromosome and the ORC (OriginReplication Complex) proteins- which have important roles in DNA replication andheterochromatin assembly. The association of Orc1 and Trf2 proteins was established previously in a paper; SiMPullexperiments verify that. Further, through our experiments we show that OrcA and Trf1 proteinsinteract too. FRET measurements were also done to see whether the Orc1/A proteins bind to GQuadruplexes,structures typical of Trf proteins. They also showed positive results. Studies likethese can in the long run shed light on the way telomeres work and how that is related tosenescence in cells and also cancer. Giving Wings to Talent | Student Symposium 65 Bhagyashree Prabhune College of Engineering, Pune Topology Optimization of 3D Compliant Mechanisms Mentor Krishnan Suresh University of Wisconsin-Madison Compliant mechanisms are popular in mechanical design for numerous reasons: they are easy to fabricate, have lower weights than their rigidbody counterparts, exhibit low wear and low friction, and have a builtin restoring force. They are often preferred over their rigid-body counterparts in various applications including micro-electromechanical-systems (MEMS), surgery. The design of compliant mechanism becomes complicated due to their non-linear behavior. However topology optimization can be effectively used for design of complaint mechanisms. It is a mathematical technique which involves structural optimization by step by step material removal obeying the constraints, boundary conditions at each step. The 66 objective was to design a compliant mechanism with maximum flexibility, minimum stiffness and volume occupied by the mechanism. The project involved design of compliant mechanism using the topology obtained from PareTo software which was developed in the lab, making necessary changes on the basis of knowledge of compliant mechanisms, dimensional synthesis and FEA analysis using commercial software packages along with actual manufacturing using rapid prototyping. It has been seen that topology optimization greatly aids in design process by taking us closer to the optimized mechanism design with maximum flexibility and minimizing the material cost, giving us two was benefit. Indo-US Science & Technology Forum Brinda Kuthanazhi Indian Institutes of Science Education and Research, Thiruvananthapuram Graphene Based Electrode Material for Supercapacitors Mentor Timothy S Fisher Purdue University, West Lafayette Supercapacitors also known as ultra-capacitors are electrochemical energy storage devices which fill the gap between conventional capacitors and batteries. Along with fast power delivery and long life cycle and more importantly flexibility added to these features, supercapacitor is a promising candidate for energy storage in next generation portable and wearable electronic devices. During this project, we synthesized 3D graphene petals on a cotton cloth, a viable candidate for supercapacitor electrode material, using plasma CVD. These samples were characterized and electrochemical measurements done to study the energy storage efficiency and performance of the supercapacitor. The samples were cut into small pieces of ~2.5 cm2 and characterized using Cyclic voltammetry, Electrochemical Impedance Spectroscopy and galvanostatic charge discharge. The CV measurements are done in a three electrode set up at various scan rates. A pseudo rectangular curve was obtained showing a capacitive behaviour. An increase in volumetric specific capacitance was observed in some of the samples as compared to the control cotton cloth. Electrochemical impedance spectroscopy measurements were also carried out in each of the samples. Equivalent series resistance was found out from the Nyquist plots. The values were found to be small which would mean the material could act as a good current collector as well. Coating psuedocapacitive layers on this and thereby drastically increasing the capacitance is a possible and promising future step for study. This would add an important milestone in scaling up of production of commercially viable supercapacitors. Giving Wings to Talent | Student Symposium 67 Chandrachur Bhattacharya Jadavpur University, West Bengal Simulation of Combustion Instability for On-Line Control by Instability Detection Using Stsa Mentor Asok Ray Pennsylvania State University, State College Stricter pollution regulations and the need for high efficiency of burning with lower emissions dictates that we use combustion systems where the mixture be lean globally to ensure complete oxidation of all the fuel. However, these lean regimes are highly prone to thermodiffusive instability due to the high concentration difference between fuel and air. Also, thermo-acoustic instability is a phenomenon observed when the heat release rate and the natural frequency of the combustor geometry become equal giving rise to high value of pressure oscillations. This can structurally damage the combustor and create a loud audible noise. The effect of both these instabilities is the possibility of flame blow-out which means direct loss of power of the engines. Previous means of detecting and controlling this instability has the inherent problem that the detection can occur only once the instability has already reached a large value amplitude. Thus, even with a control action eventually imposed to control it, the combustor has already had to face the instability or often the flame 68 has already blown out. Thus there comes a necessity to be able to predict or detect the onset of instability before the instability reaches its full value, and a suitable control mechanism to do an online control during the engine run-time. We have devised a new using Symbolic Time Series Analysis (STSA) to detect combustion instability at its onset itself from the time series data of variables such as pressure and thus be able to have a preventive control versus previous curative control. However, it is not technically feasible to conduct extensive experiments, especially in the highly dangerous unstable regimes. Thus there was a need to have a numeric method to accurately simulate the combustor dynamics and physics and also a means to simulate a control mechanism to fine-tune the control logic under extensive conditions. For accurate understanding of the physics and to apply a suitable control algorithm, we must be able to simulate all regimes. We have prepared a novel CFD model that accounts for more complex physics as well as realistic geometry. Indo-US Science & Technology Forum Ishan Manjani Indraprastha Institute of Information Technology, Delhi Countering the Effect of Ageing in 3D Face Recognition Mentor Kevin W. Bowyer University of Notre Dame, Indiana 2D face recognition systems have been shown to be affected by ageing of a person. For example, if I get myself enrolled in a system which recognizes me by face and try to get access after a few days, or weeks it would work just fine. But if I try to get access after say five years the face matching would be poor, and access may not be granted. The reason is that the system is trying to match a picture of my face(called the source) to one taken five years ago (called the target). Over this period, my face may have changed due to for example weight loss or gain, ageing, wrinkles etc. In case of 3D face recognition there have been no reports stating that the recognition gets poorer as the time lapse between the target and the source scan increases. My research examines this property for 3D face recognition using scans having very high time lapse between them. Giving Wings to Talent | Student Symposium 69 Jatindeep Singh Indian Institute of Technology, Gandhinagar Detection of SNP Using RNA Sequencing Mentor Sreeram Kannan University of Washington, Seattle Detection of SNPs (Single-nucleotide polymorphism) in a Genome for detection of Cancer Cells with the help of RNA and DNA reads. Cancer leads to a change in genome (DNA) of the organism. If we are able to differentiate between a healthy cell and a cancer cell we would be able to understand the places where the SNP takes place and try to revert back the changes made at the point of SNP. As most of the SNPs take place in the exon region of DNA it is easier to detect a SNP using RNA reads as RNA is formed from different exons regions. RNA reads were matched and linked with the reference genome with the help of Abundance Estimator Algorithms. Probability of SNPS is calculated for each nucleotite position and hence decision is taken on presence of SNP. As the computation was very large an optimizing algorithm was developed and calculations were mostly performed on servers. The task assigned also required integrating various softwares already present with the algorithms developed on python. 70 Indo-US Science & Technology Forum Kazi Ranjibul Islam Indian Institutes of Science Education and Research, Kolkata Subdiffusion in Strongly Disorderder Noisy Environment Mentor Mikhail D Lukin Harvard University, Cambridge My main work is on how the dynamics of a quantum particle changes in presence of disorder and noise. Specially I have focused on the effect of noise to a strongly localized system. Is the localized state stable to noise? Our intuition tells this time dependent noise will couple the localized states. But what is the nature of this new transport? To investigate this I work with a system of one particle in a lattice with nearest neighbour hopping and on site disorder and noise. We started with numerical simulation of the problem and tried to see the phase diagram of this two dimensional coupling space of disorder and noise. What we found is very interesting. As we tune disorder and noise,system undergoes phase transition(in a loosly sense) among four states ballistics,localized,diffusion and subdiffusion. We saw in that phase diagram that localized phase is not stable in presence of noise. So we did some analytics on this and what we found out is more interesting. We saw in presence of small noise particle undergoes a transition from localized to subdiffusive region and as we increase noise it eventually goes to diffusion. If I say technically, first order in hopping gives high density of bottlenecks which means system will be trapped and it takes a long time to come out of that. But if we wait long system will eventually goes to diffusion. Giving Wings to Talent | Student Symposium 71 Koushik Chatterjee Indian Institute of Technology, Kharagpur Searching for ULXs in Hst Imaged Galaxies Mentor Philip Kaaret University of Iowa, Iowa City We report on a new XMM Newton Observation of 11 galaxies from August 2013 - January 2014. The aim of this study is to present an X-ray analysis of the new X-ray Sources observed. We have found 18 X-ray sources from our sample of galaxies, all of which are associated with their concerned galaxy. Five of these sources presented with enough counts to perform spectral fitting. We note the presence of a proposed galaxy cluster (XMM J205206.0691316) with an intra-cluster temperature of 3.6+0.4 keV, located in the same region of the sky as the sample galaxy PGC 65603. Alongside this, we note the presence of an ULX with luminosity (6.3+0.3) x 1039 erg s^(1), situated in the PGC 65603 galaxy, with another weaker X-ray source, both with power law = 2.0. We also report on the identification of a possible Quasi-soft source (QSS) (XMM J174709.9-643812) in the galaxy PGC 60849, whose blackbody temperature is 0.166+0.015 keV. 72 Indo-US Science & Technology Forum Kalind Baraya Indian Institute of Technology, Guwahati Analytical Modelling of Closed-Loop Pulsating Heat Pipes Mentor John Pfotenhauer University of Wisconsin–Madison The aim of the project was to simulate the dynamics of a pulsating heat pipe in form of an analytical model. The simulation should produce the experimental results, that is, it should behave in a similar manner as the actual PHP would work if subjected to comparable initial and boundary conditions. The PHP consists of a hollow tube with fluid inside it, which exists in both liquid and vapor phase. It is assumed that the vapor “slugs” and liquid “plugs” are uniformly distributed throughout the tube. It is also assumed that the slugs and plugs behavior is akin to spring–mass–damper system. To test the above hypothesis, a dynamic model of the above system is made in software called EES. The model was improved by making it more and more similar to practical situation by including heat and mass transfer, evaporation and condensation, film boiling, etc. It should be noted that all the previous researchers have used the approach of springmass-damper systems to study the dynamics of a PHP because this is the finest approach to gain a physical insight into how the PHP works, which can help us to further improve the heat transfer capabilities of a PHP. Giving Wings to Talent | Student Symposium 73 Kartikeya Singh Sangwan Delhi University Geochemical Analysis of Oceanic Sediments of Site U1359 from the Continental Rise Off Wilkes Land, East Antarctica Mentor W. Berry Lyons Ohio State University, Columbus Antarctic Ice sheet is broadly divided into two parts EAIS (East Antarctic Ice Sheet) and WAIS (West Antarctic Ice Sheet). The Wilkes Land sector of EAIS is prone to sudden climate changes as it is marine based. The present work deals with the Miocene sediments of site U1359 which is present off the coast of Wilkes Land. The main objective is to understand the dynamic behavior of EAIS at Wilkes Land sector and also the geochemical characterization of the sediments of site U1359. In the context of sourcing of the sediments, two distinct geological environments can be considered, namely, the Proterozoic/Archean hinterland and the dominantly Palaeozoic terrain to the east, including the Ross Orogen and the Trans Antarctic Mountains. The sediment supply in the area is complex, comprises multiple sourcing and long distance transportation. Trace elements and major elements analysis of sediments conducted using ICP-OES and ICP-MS Facilities at the Ohio State University will allow to understand their geochemical constraint which will aid in characterization of the sediments. The pattern of distribution is dependent on the ice retreat and advance stages as well as on different depositional processes. Hence, any variability in the characteristics of trace elements will also allow to infer sedimentological processes operated for sediment supply. 74 Indo-US Science & Technology Forum Khyathi Raghavi Chandu Indraprastha Institute of Information Technology, Delhi Automatic Classification of Medical Abstracts for Evidence Based Medicine Mentor Ani Nenkova University of Pennsylvania, Philadelphia Evidence based medicine is a protocol for coalescing assorted clinical expertise and systematically searching through them for optimal evidence. The US National Library of Medicine (NLM) maintains bibliographic database of biomedical literature. Automatic classification of biomedical text into labels under exclusive set of union of PICO labels and 5 NLM categories (total of 8 classes), to serve evidence based medicine is the aim of the project. We used Support Vector Machines (SVM) and Support Vector Regression (SVR) to implement this. The disparity between segments in NLM structured abstracts (multiple sentences) and real testing data initiated an idea of choice of classifiers with 4 combinations from training and testing, on segments and sentences. Results are better when trained on segments. Integrating the results of 8 One vs Rest classifier proved better than 8 way classifier. A hierarchical classifier showed improvement of 3 classes over a base class. For compact yet comprehensive representation, statistically significant features are extracted by binomial and z-tests, (still on-going). Unstructured abstracts are used as to generate brown clusters and contextual word2vec features, with the idea of using them as triggering or similarity features respectively in the case of absence of the feature itself. Giving Wings to Talent | Student Symposium 75 Lois Thomas Savitribai Phule Pune University A Study on Monsoon and Premonsoon Atmospheric Boundary Layer (Using Sounding Analysis and 2D Baby EULAG Model) Mentor Wojciech W. Grabowski National Centre for Atmospheric Research, Boulder Atmospheric boundary layer (ABL) plays an important role in determining weather. Monsoon and pre-monsoon are marked by notable changes in ABL. The main aim of the study was to understand the contrasting properties of ABL during monsoon and premonsoon seasons of India. 1. Sounding Analysis : With the help of parcel model, radiosonde soundings (CAIPEEX, IITM, Pune) were analyzed to study different thermodynamic parameters. The following properties of ABL could be identified-Deeper and drier pre-monsoon ABL, lower level monsoon cloud base, different growth pattern of monsoon and pre-monsoon Cumulative CAPE and parcel buoyancy growing negatively below the cloud base and positively above it. 2. 2D babyEULAG model : One sounding from each of the two cases were used in 2D version of babyEULAG model developed by Dr. Grabowski. It was provided with a bubble as an initial localized perturbation. The model run results are-A well mixed pre-monsoon boundary layer in one hour, spreading of monsoon clouds and rain over more range of heights and near surface vertical velocity fluctuations in pre-monsoon. Sounding analysis as well as the 2D model helped in studying monsoon and pre-monsoon contrasts of Atmospheric Boundary Layer. 76 Indo-US Science & Technology Forum Partha Pratim Dutta Indian Institute of Engineering Science and Technology, Shibpur IGC3: A Fully Electronic Microfabricated Gas Chromatograph with Capacitive Detectors for Indoor Pollutants Mentor Yogesh Gianchandani University of Michigan, Ann Arbor The work reports a full micro gas chromatograph (µGC) in which all the components are lithographically microfabricated and electronically interfaced. All components include a bi-directional Knudsen pump, a pre-concentrator, separation columns, and capacitive gas detectors, form a complete µGC system with a footprint of ≈8×10 cm2. The system uses room air as carrier gas. All the fluidic components of the system are fabricated by a common three-mask lithographic process. The preliminary system has experimentally demonstrated sampling, separation, and detection of 12 chemicals with 1-10 ppm concentrations. This set of chemicals represents a variety of common indoor air pollutants, among which benzene, toluene, and xylenes (BTX) are of particular concern. The calculated detection limit is expected to reach as low as 20 ppb. My portion of the project dealt with the assembly of all these iGC3 components followed by their testing, standardization of results and performance analysis. Giving Wings to Talent | Student Symposium 77 Phalguni Shah UM-DAE Centre for Excellence in Basic Sciences, Mumbai Two Earthworm Models Mentor Lionel Levine Cornell University, Ithaca We aim to study a discrete model of an earthworm tunneling through soil. The earthworm performs simple random walk on an innite lattice, each vertex of which is occupied by soil or air. There are two variants of the model: the `strong’ earthworm, when encountered by soil, can push an arbitrarily large column of soil to form an air pocket. A heuristic argument predicts that for n steps taken, the earthworm would create 78 n34 air pockets. We plan to confirm this conjecture by simulation, and supply a proof if possible. The other variant is a `weak’ earthworm, that can only push a single cell of soil. If it encounters a larger column of soil, the move fails. We wish to investigate the critical soil density for the earthworm to get trapped, on increasing lattice sizes. 78 Indo-US Science & Technology Forum Poulami Chakraborty Indian Institute of Technology, Guwahati Smartphone Application for Community Engagement and to Analyse Social Practices Mentor John M. Carroll Pennsylvania State University, State College There is, at present, a widespread adoption of social media and smart phones for interacting with trending stories as well as sharing and connecting with friends. This produces a wealth of social media content. These technology and data opens up opportunities to enhance community life. Prior research has focused on methods for extracting meaningful events from social media content and visualizing patterns. In this project, we endeavoured to enrich people’s experiences for information interactions at a regional arts festival that attracted over 100,000 visitors through a mobile collaborative application integrated with location awareness features. We leveraged algorithmic and human computational approaches to amplify the interactions and experience of the event. Furthermore, the data extracted and aggregated were used to develop visualization of people’s involvement and interaction during the festival. People’s reaction to their personal (ego) network and the whole network will help to generate new insights in social network analysis and also characterize people’s social practices in community events. Giving Wings to Talent | Student Symposium 79 Priyanga Ganesan National Institute of Science Education and Research, Bhubaneswar Quantitative Analysis of Trapping Stochastic Movers Mentor Jeffrey Schenker Michigan State University, East Lansing The capture of individual animals in lure baited traps can help us in understanding the dispersal of animals and estimating their population densities. My summer work is a part of a bigger research project that aims at interpreting trap data for estimating populations. In our study, we developed a mathematical model for predicting the catch in a trap depending on certain parameters such as mobility and duration of movement. MATLAB simulations of random walkers were used to find a function that translates the catch probability of this insect motion into the catch probability of Brownian movers. We found that our random walk model could be well approximated by Brownian motion for small time scales after renormalizing the trap radius. Converting catch numbers into accurate measurements of insect density can be very useful for the detection and management of invasive species and allow pest managers to take better decisions regarding the necessity and frequency of insecticide sprays. We hope that outcomes of the project will offer societal benefit via improved pest control that also minimizes damage to the environment. 80 Indo-US Science & Technology Forum Pranav Gupta Birla Institute of Technology and Science, Pilani Automatically Mapping Datasets to a Large RealWorld Ontology Mentor Craig Knoblock University of Southern California, Los Angeles I worked on a project called Karma. Karma is an information integration tool that allows users to quickly and easily integrate data from a variety of data sources. With data being present in different formats ( such as excel files, csv formats, JSON objects ), Karma has the capability to extract and combine information automatically. My project aimed at the semantic typing module of Karma. With massive data sets flooding the structured data space on the web, a system is needed which can automatically predict the type of data uploaded. Semantic Typing Module aims to do that. This not only makes the things faster but also reduces the effort which is required in manual assignment. For E.g.: - If a database is uploaded, then the system should automatically assign class type ( e.g.: student ), data property ( e.g.: name ) and the corresponding semantic label ( e.g.: student_name ) For this automatic assignment of class type, data property and the semantic label, it is important to train the system beforehand. Schema.org fits perfectly in this situation. Schema.org currently contains over 25 terabytes of data. Today all markup is performed manually which is neither cost nor time efficient. Karma automates this process. Giving Wings to Talent | Student Symposium 81 Ramudu Kolisetty Birla Institute of Science and Technology, Hyderabad Implementation and Parallelization of Multi-Fractal Detrended Fluctuation Analysis(DFA) Algorithm Using Matlab. Mentor Paul Bogdan University of Southern California, Los Angeles Detrended Fluctuation Analysis (DFA) technique has become a widely used method for determination and understanding of fractal scaling properties in time series data. In recent times, it had been applied to diverse fields like DNA sequence, heart rate dynamics, economics time series such as exchange rate, long-time weather records etc to detect the reliably long range correlation in the data. The project involves implementation of generalized Multi-fractal Detrended Fluctuation Analysis (DFA) in matlab and analysis on sample time series to evaluate Hurst exponents. In parallelization of algorithm, pipelined multithreading approach was followed to execute the data analysis independently of others. Further parallelization effort has to be evaluated by comparing the execution time of the code after parallelization to sequential execution time. 82 Indo-US Science & Technology Forum Rajath Kantharaj Birla Institute of Science and Technology, Pilani On the Effective Thermal Conductivity of Granular Material Packings Mentor Timothy S. Fisher Purdue University, West Lafayette In this study, we attempted to characterize the thermal properties of granular material packings by quantifying a key thermal parameter, the effective thermal conductivity. This parameter describes the overall thermal conductivity i.e., of the packing on a macro-scale accounting for different modes of heat transfer e.g., heat conduction through granular materials in contact, conduction in the air space in the interstice. It is likely that you will find studies, both theoretical and experimental, on the thermal conductivity of suspensions, or particulate composites but not granular material packings per se, in the literature. The project involves two phases: (1) details of setting up of the uniaxial strain device for thermal measurements on the granular material packing i.e., setting up of the temperature controller, procedure for approximate strain measurements, volume fraction measurements, a mention of slots for thermocouple on the aluminum plate for a more robust measurement, discussions on the experimental procedure, trial experiments (2) the design of a Couette Cell for studying the effect of shear on the effective thermal conductivity of granular material packing. Phase two basically paves a way to test the hypothesis that effective thermal conductivity of the packing increases, owing to an increase in the number of face-face contact as a result of shearing. Giving Wings to Talent | Student Symposium 83 Rishav Roy Indian Institute of Technology, Kharagpur Controlling Lateral Inertial Migration Rate of Particles in Microchannels Mentor Dino Di Carlo University of California, Los Angeles Studying kinetics of reactions, washing and labelling cells, solid-phase chemistry, molecular assembly, are some members of the broad spectrum of applications of mediating millisecond or sub-millisecond biological and chemical reactions. Controlling lateral migration of particles across different solutions can give us the power to achieve the aforementioned objectives. A device, Rapid Inertial Solution Exchange (RInSE), was proposed by Gossett et al. (2012). It employs only hydrodynamic lift forces to manipulate the lateral position of particles within a micro channel. This does not require any auxiliary device for inducing additional forces, hence resulting in a device with significantly small footprint. This project deals with further improving the performance parameters by suggesting a new model. Experiments were performed on a RInSE device proposed by Dudani et al. (2014) and our proposed device. RInSE lacked uniformity as the trajectories of particles were widely spaced out. Our proposed device addresses this issue, giving the freedom to choose migration rates depending on flow rates, and adds a couple more advantages. Particles migrate faster, hence we can study those reactions which take place on a time scale even smaller than what can be resolved by RInSE. The other noticeable feature was higher axial speeds of particles implying a higher throughput. 84 Indo-US Science & Technology Forum Ravi Srivastava Indian Institute of Technology, Gandhinagar Late-Stage Diazirination of Drug-Like Molecules Mentor Uttam K. Tambar University of Texas, Texas. As a Bose Scholar in Prof. Tambar’s lab, I was given the opportunity to work on Late-Stage Diazirination of Drug-Like Molecules. Diazirines are ideal photo cross linking structures, because they present a minimal structure perturbation to the drug candidate and are easily converted in the presence of light into reactive intermediates that can covalently bind to the drug candidate’s target in the cell. We focused on the coupling of 3-chloro3-phenyldiazirines with Indole and N,N-dimethylaniline to synthesise diazirine containing probe after analysing that Bromine containing phenyldiazirines are less stable and get decomposed easily. We did variations in reaction condition by using mild inorganic bases, changing the solvent, moderate temperature variations etc. to get the desired target material. Though some results were very promising as analysed by NMR, Mass and IR Spectroscopy but none of them were our target material. Thus, eight weeks being an extremely short time to arrive at a constructive result, I unfortunately could not observe the desired final diazirine containing drug-like molecule. Had this happened, it could have been a major breakthrough to attach drugs with their target material without changing their chemical properties. Also, we could have studied the mechanism by which that particular drug works on the affected cell. However, my work contributed to the initial progress of the project by yielding new information. Giving Wings to Talent | Student Symposium 85 Robin Singh National Institute of Technology, Surathkal Capacitive Micromachined Ultrasonic Transducers: Next-Generation Arrays for Acoustic Imaging Mentor Butrus Khuri Yakub Stanford University, California. Piezoelectric materials have dominated the ultrasound transducer technology. Recently, Capacitive Micro-machined Ultrasonic Transducers (CMUTs) have emerged as an alternative technology offering advantages such as wide bandwidth, ease of fabricating large arrays with different geometries, and potential for integration with electronics. In the past decade, various articles have demonstrated the viability of CMUTs for ultrasound and photo-acoustic imaging. Ultrasound imaging provides the anatomic information which is used for needle guidance during biopsies. However, it does not assist much with cancer staging due to lack of reliable contrast mechanisms. Novel imaging strategies are needed to visualize cancer with high sensitivity and molecular information. This necessitates the use of dual modality of imaging (ultrasound and photoacoustic) on the same platform. Photoacoustic imaging along with ultrasound provides optical contrast on molecular metrics making it easier to visualize cancerous tissues in the organ with better contrast. 86 The aim of the project was to generate a simulated environment to perform the dual modality. With the help of mathematical, computer simulation and design tools, an optimized platform was generated to analyze the medical images. Various existing ultrasound and acoustic tools like FIELD-II, FOCUS and K-wave MATLAB, are capable of simulating various geometries of CMUTs and performing beam forming which form the base to re-construct the ultrasound and photo-acoustic images. Beam forming algorithms like ash, classic phased array, delay & sum etc. are used to focus ultrasound at different locations and depth of tissues. Quality of the ultrasound images largely depends on the type of beam forming algorithm used. Thus, various beamforming algorithms are implemented in simulation environment to obtain the best dual images. At the end, it was possible to code our own customized ultrasound and photo acoustic MATLAB toolbox with capability to simulate 3D images based on different CMUT transducer aperture and image re-construction algorithms. Indo-US Science & Technology Forum Rishav Choudhary Indian Institute of Technology, Kanpur Hydrogen Production by Water Thermolysis Using MIEC Membranes Mentor Ahmed F. Ghoniem Massachusetts Institute of Technology, Cambridge In the current hydrocarbon economy, petroleum, natural gas and other fossil derived products are the main fuels on which transportation and industries are dependent. Apart from being nonrenewable sources of energy, these fuels produce carbon dioxide on burning which contributes greatly to global warming. A hydrogen economy can help to solve this negative impact of hydrocarbon economy. Hydrogen burns without producing carbon dioxide and engines using liquefied hydrogen as fuel are more efficient than conventional internal combustion engines. The main difficulty in realizing a Hydrogen economy is the difficulty encountered in economic production of Hydrogen on a large scale. Although electrolysis offers a viable solution, the costs incurred by maintenance and electricity consumption are high. Mixed Ion Electron Conducting (MIEC) membranes, having perovskite structure, have the capacity to selectively allow Oxygen to permeate through them. This property can be utilized to split water at high temperatures in order to generate high purity Hydrogen. The reactors utilizing MIEC membranes are simple, i.e. devoid of moving parts or electronic circuits. Thus, they require lesser maintenance. This has made them an attractive prospect for Hydrogen production. The aim of this study was to use dense LCF-91 membranes to find out to the rate of Hydrogen production by water thermolysis. The impact of use of fuel gases on the sweep side on the production rate was also studied. The effect of addition of a porous layer on the dense membrane was also studied experimentally, and an expression was derived analytically to support the observations. Stability studies were carried out to find out the viability of using porous layers in the long run. The results obtained show a massive increase in Hydrogen production rate with porous layers. Giving Wings to Talent | Student Symposium 87 Satyanarayana Indian institute of Technology, Guwahati NDN Link Layer Reliability Protocol Mentor Lixia Zhang University of California, Los Angeles The current internet architecture is designed in 1970s, when the only successful model of communication is telephony, but the way people use the web changed a lot in recent days. The current internet architecture have a lot of security related issues. To redesign the internet architecture, NSF recently funded 5 future internet architecture projects. One of those projects is Named Data Networking, which is a data centric model, and is resilient to security attacks. I involved and helped in the development of NDN, as a part of my summer project. In NDN, data delivery reliability must be assured at the application level. However, loss recovery at the application level can be a lot 88 more expensive compared to doing retransmission right at the point where a packet get lost, because the delay between two adjacent nodes can be measured more accurately, and the delay variation is smaller. On the other hand, the network protocol must not insist on delivery every packet reliably at the cost of excessive delay. The goal of this project is to design a best effort loss detection and recovery scheme for NDN architecture. Once a packet is detected lost between 2 adjacent nodes, the sending node will try quick retransmission for up to n times. We want to find a proper value of n so that most losses can be recovered quickly without the network injecting unduly long delays. Indo-US Science & Technology Forum Samprit Ghosh Indian Institute of Technology, Bombay L-functions of the Picard Family of Curves Mentor Jerome W. Homan Lousiana State University, Baton Rouge Let C be a smooth projective algebraic curve over Q. Then the L-function of C is conjectured to have analytic continuation on the entire complex plane. Deligne conjectured that the value of the L-function evaluated at critical points is an algebraic number times the determinant of the real period ma- trix associated with C. The periods of such curves are also expressible in terms of hypergeometric functions. In this paper we initially look at Picard family of genus 3 curves. We com- pute the local Lp-factors and Zeta functions for a bunch of prime p’s. We verify Deligne’s conjecture for certain genus 2 and genus 3 curves. We also explore period matrices expressible as hypergeometric functions. Eventually we examine Gaussian hypergeometric functions where we come up with an apparently new result. Giving Wings to Talent | Student Symposium 89 Shalini Gupta Indian Institute of Technology, Kanpur MD Simulations of a de Novo Designed Single Site Zn2+ Transporter Mentor William DeGrado and Michael Grabe University of California, San Francisco Protein structure and its relation to protein function have been areas of active research over the years. The de novo design of functional proteins is a challenge that tests our understanding of this field. Over the past few years, water-soluble and catalytically active proteins have been designed, but de novo design of membrane proteins remains to be explored. This work focusses on the study of a set of designed, membrane proteins that have been shown experimentally to function as Zn2+ transporters. The transporters studied are homotetramers of 26-33 amino acid peptides that form membrane spanning four-helix bundles. Common to the design of these transporters is the central EXXH motif that comprises the (4Glu4His) di-Zn2+ binding site. Two main 90 conformations have been explored: a symmetric coiled-coil structure (closed) and an off-symmetry flared structure (open). Molecular Dynamics (MD) simulations were used to study the stability of the designed structures within a lipid bilayer. The model structure was embedded into a homogenous 1-palmitoyl-2oleoylphosphatidylcholine (POPC) bilayer and the Zn2+ bound and unbound states were simulated for over 100 ns. Root mean square deviations of the binding site residues were calculated and hydration of the pore of the transporter was studied. In attempt to determine the free-energy profile for Zn2+ transport across the membrane, umbrella sampling with one of the Zn2+ ions at different positions is being carried out. Indo-US Science & Technology Forum Shaurya Garg PEC University of Technology, Chandigarh Analytic Modelling of 2 Dof Landing Gear System in Terms of Distance Travelled Parallel to the Ground Mentor Rakesh Kapania Virginia Polytechnic Institute and State University, Blacksburg The undercarriage beneath an aircraft constituted by tyres and struts is known as ‘Landing Gear’. Two main types of landing gears which exist are ‘Nose-type’ and ‘Tail-type’ landing gears. But nose type landing gears are more preferable. The different purposes of a landing gear are namely energy absorption at landing, braking and taxi control. But in our case, we will specifically focus on its application involved in landing. The most commonly used strut for landing gears is ‘Oleo Strut’ which is a hydro-pneumatic shock absorbing strut in which the pneumatic component provides elasticity and the hydraulic (oil) part provides damping. Our system is a 2 dof system spring mass damper system. In which one part represents the tyre and the other the strut. The major external forces acting on them are the frictional force, weight of the aircraft and the lift force on the aircraft. Therefore, after we obtain the governing, we solve them analytically so that we end up obtaining the response in terms of the distance travelled by the aircraft along the ground. Further, we have been working on quantifying uncertainty in damping in more complex system of landing gears which would be a 6 dof system. Giving Wings to Talent | Student Symposium 91 Shelly Aggarwal Indian Institute of Technology Madras, Chennai Laser –Micro Machined Bulk PZT Ultrasonic Traveling Wave Motor Mentor Amit Lal Cornell University, Ithaca The traveling wave ultrasonic motor is considered for use in haptic devices, microscopes and cameras. We demonstrate a traveling wave ultrasonic motor from PZT cantilever beam by creating an effect of travelling wave from its in plane and out of plane bending mode. Piezoelectric actuators are electro-mechanical energy transducers; they transform electrical energy into motion using inverse piezoelectric effect. Bulk PZT actuators are micro machines to defined 12 beams in a circular pattern by laser-cutting through a PZT-4 plate while also defining arbitrary 2D electrode patterns on top and bottom surface of the beam by using a commercial laser cutting tool. PZT motor of different length 4mm, 3 mm and 2.5 mm long, 0.45 mm wide and 0.5 mm thick were characterized by placing a rotor connected to ball bearing at centre of motor. The experimental results demonstrate that prototypes achieves maximum speed of 500 rpm at an applied voltage 25 Vp-p sinusoidal signal of 30 kHz for 2.5 mm length motor. The direction of rotation can be controlled by switching between electrodes. 92 Indo-US Science & Technology Forum Shashwat Kumar Singh Indian Institute of Science Education and Research Kolkata Earthquake Relocation in the Middle Atlas: Apparently-Deep Events Resolved to be Shallow Mentor Maximiliano J. Bezada Vierma University of Minnesota, Minneapolis The occurrence of intermediate depth seismicity in intracontinental settings is rare, but it has been postulated with various degrees of certainty in several regions. One such region is the Middle Atlas of Morocco. In the last twenty years, more than a dozen intermediate depth earthquakes were reported in this region by Spain’s National Geographic Institute (IGN). The apparent deep nature of these events is hard to reconcile with well-established geophysical evidence of a thin lithosphere under the Middle Atlas. We relocate 4 events with IGN-reported depths greater than 80 km that were recorded by a relatively dense temporary deployment; using a recent regional 3D velocity model obtained through tele-seismic body and surface wave tomography. The relocation procedure uses a grid-search approach to minimize the mean normalized misfit, where each travel-time misfit is normalized by the estimated pick uncertainty. We find that our observed arrivals are much better fit by shallow (<5 km) depths than the reported depths of >80 km. We propose that these shallow foci earthquakes are the result of regional crustal deformation of this region caused by the present convergence between Africa and Eurasian Plate. This study is an example of how local earthquake locations can be significantly improved by using a wellconstrained 3-D velocity model and a dense local seismic array. Giving Wings to Talent | Student Symposium 93 Sidhyansh Saxena Indian Institute of Technology, Madras Methods and Apparatus for a Survivor Search System Using One or More Drones Mentor Ashutosh Sabharwal Rice University, Houston One of the most important and critical factors while searching for survivors during a disaster or calamity is time. To maximize the chances of survival one needs to find the location and vital statistics of the survivors as swiftly as possible allowing the rescue forces to plan and allocate resources appropriately. In this paper we demonstrate a system that can use one or more drones to assist in survivor search. One of the key contribution of the system is that the drones can operate autonomously or as a coordinated group to locates the survivors, measure their vital signs without requiring them to come in contact with the survivors, and conveys the measured vital signs, location and images (still or video) to the rescuers or mission operators. The drones can use one or more sensing or imaging modalities to find physically accessible and inaccessible survivors from long distances. To increase the overall search time with limited battery, the drone can switch from one sensing modality to another, or use the cloud computing back end to off load some of the computing tasks. 94 Indo-US Science & Technology Forum Shristi Singh National Institute of Technology, Warangal Spreading of Miscible Sessile Drops Mentor Gerald Fuller Stanford University, California. The spreading of sessile drops represents a classical problem in interfacial fluid mechanics. Under the action of gravity or capillary forces, drops have been measured to spread with well-known power law dependencies on time as they adjust their shapes and contact angles. Tanner’s law, which describes the spreading of a drop under the action of capillary forces is a prominent example. Similarly, a sessile drop that finds itself immersed beneath a second fluid in which it is miscible spreads spontaneously as the resulting interfacial tension between the two liquids diminishes in time. This problem, which does not appear to have been previously addressed, is the subject of this study. As time evolves, dissolution of the two initially distinct, homogeneous liquids into one another causes the interfacial tension to diminish and the liquid-liquid interface to blur. Concurrently at the contact line, the two miscible liquids compete to wet the solid interface relative to their surface energies and surface tensions. Possible density differences between the two miscible liquids can influence the spreading phenomena as well. Gradients in interfacial tension over the liquid-liquid interface, created by drop movement and dissolution at different rates and in different directions, will lead to Marangoni stresses that accelerate the spreading of the miscible sessile drop. Miscible liquid pairs such as (Drop Liquid-Ambient Liquid) Corn Syrup-Water, GlycerolWater, Glycerol-Ethanol, GlycerolIsopropanol, Tricresyl PhosphateEthanol, Tricresyl PhosphateIsopropanol, and silicone oils (viscosities varying from 1 to 10,000 cSt) were studied. The observed shape evolution and dynamics of sessile drops spreading into miscible environments is qualitatively different than those observed for liquidimmiscible environment systems. In addition to a spreading contact line, there exists a portion of the drop that is elevated above the liquid-substrate interface and, in some cases, extends beyond the contact line, as depicted in the figure. We have found in the miscible liquid pairs studied to date that miscible sessile drops also spread with power law dependencies on time, R ~ tn with n≈ 0.4 - 0.5, which is independent of the initial drop volume. Giving Wings to Talent | Student Symposium 95 Shilpa Vijay College of Engineering, Pune Experimental Characterization of Permeability in 3-D Printed Porous Cylinders Mentor Mitul Luhar University of Southern California, Los Angeles Research has suggested that flow through porous media has a significant impact on flow and can improve the efficiency of a fluid based system by achieving reduction in drag forces and hence reducing losses by skin friction. However, there exists no systematic way to vary the porosity and permeability of a porous structure. The present research attempts to utilize the 3D printing technology to systematically vary the porosity and the geometry of the material and experimentally characterize it for permeability. Twelve different cylindrical porous samples of varying geometry spanning a wide range of porosity were manufactured using the 3-D printer and were experimentally tested in a constant head permeameter apparatus. Non linear relationship between superficial velocity and pressure gradient was observed indicating the influence of inertial effects. Challenges faced were existence of air bubbles in constant head permeameter apparatus which affected the permeability values. The results were compared with the Carman Kozeny equation which predicts permeability for packed solid beds and it was found that the results are slightly offset indicating the existence of a different relationship. Future work involves identifying the relationship between porosity and permeability in a single equation. 96 Indo-US Science & Technology Forum Soumya Kamal Kanungo National Institute of Science Education and Research, Bhubaneshwar Saturation Absorption Spectroscopy Mentor James P. Shaffer University of Oklahoma, Norman Saturation absorption spectroscopy is a technique to nullify the effect of Doppler Broadening in transition lines in atoms. Especially when the transition levels are close by (like hyperfine splitings), individual absorption peaks are not resolved due to broadening caused by the doppler effect. The measurement of absorption is made on atoms in vapor cell. Since at room temperature the velocities of atoms are given by maxwellian distribution, atoms with different velocities see different frequency in their frames for a given light frequency. Hence the width in the velocity profile transforms into the width in absorption profile. The reason being, even when the frequency is off-resonance for a particular transition, we would find atoms with certain velocity for which the transition is possible. Thus, the broadening occurs and we can say that a particular frequency gets absorbed by particles of a particular velocity class. Saturation absorption uses two counter propagating beams to counter this effect. One is the pump beam(higher intensity) and the probe beam(lower intensity). The pump beam is required to saturate the absorption for a population with certain velocity. Since the probe beam is travelling the other way, it interacts with a certain population whose velocity is just opposite but same in magnitude. It also gets absorbed. But as we scan the frequencies slowly, there would be a frequency which would interact with population with zero velocity. Now the pump and probe interact with the same population. But the pump saturates the absorption and allows the probe beam to pass through without getting absorbed. This only happens if they interact with the same population and that is possible when the frequency is very close to resonance. So the linewidth obtained is free from any doppler effect and is very close to natural linewidth. Saturation absorption spectroscopy is basic to experiments in quantum optics. Giving Wings to Talent | Student Symposium 97 Sooraj Ben K.R. Indian Institute of Science Education And Research, Thiruvananthapuram Inorganic Hole Conductor Cui -Based Perovskite Solar Cells Mentor Prashant V. Kamat University of Notre Dame Organic-inorganic lead halide perovskites have emerged as efficient absorbers in solid state solar cells known as Perovskite solar cells, in the last few years. Perovskite solar cells have become a major competitor in the field of photovoltaics, undergoing rapid evolution in device architecture and fabrication methods and reaching power conversion efficiencies of above 20%. Perovskite solar cells are expected to be a possible competitor in the photovoltaic industry in the future owing to their low costs and high power conversion efficiencies. Stability, low cost and high power conversion efficiency are the factors which largely affects the commercialisation of solar cells. One of the drawbacks of the current perovskite solar cells is the usage of spiro- OMeTAD hole conductor, which is currently more expensive than gold and have a low hole mobility and moreover, being an organic compound, it is expected to be less stable during long term operation. In this 98 scenario, inorganic hole conductors like copper iodide stand chance as alternative hole conductors in solid state perovskite solar cells. CuI is much cheaper, likely to be more stable than spiro-OMeTAD and being transparent, can also be used in inverted perovskite solar cells. Christians et al. has reported CuI hole conductor perovskite solar cells with an efficiency of 6%. They demonstrated that CuI is much stable and a better hole conductor than spiro-OMeTAD. However, they followed a syringe injection technique for CuI deposition which is tedious and is difficult to scale up. This project focuses on a much simpler 2 step deposition of CuI film, by first depositing metallic Cu followed by conversion to CuI. This method is simple, is expected to produce more uniform films of CuI and can be scaled up easily. The project focuses on designing a suitable strategy for cuI fabrication in perovskite solar cells and produce inorganic hole conductor cells of high efficiency. Indo-US Science & Technology Forum Shruthi Tiruchirapalli Kumar Raj CSIR-Central Electrochemical Research Institute, Karaikudi Porous Silicon Carbide from Silica Aerogels Crosslinked with Aromatic Triisocyanates Mentor Nicholas Leventis Missouri University of Science & Technology, Rolla SiC, a bioinert, wide bandgap semiconductor is used in a wide range of applications, from an abrasive in the 1940’s to a semiconductor material in today’s electronic devices. SiC is also used in the large scale synthesis of epitaxial graphene, the wonder material, by graphitisation at elevated temperatures. The synthesis procedure for SiC is usually tedious and porosities of 30 v/v% are typically considered high. Our synthesis route describes the synthesis of highly porous SiC (89%) by carbothermal reduction of 3D sol-gel silica nanostructures cross-linked with an aromatic isocyanate. The SiC obtained by pyrolysis of X-Si at 1500ºC was found to be macroporous with a surface area of 30 m2/g and having particulate morphology. Thermogravimetric analysis confirmed the high oxidation resistance of as prepared SiC at elevated temperatures. The skeletal density of as prepared SiC was found to be 3.12 g/cm3 which matches closely with pure SiC (3.2 g/cm3) Giving Wings to Talent | Student Symposium 99 Soumya Wadhwa Indian Institute of Technology, Guwahati Predicting the Number of Triangles in Similarity-Based Graphs using Node-Sampling Mentor Srinivasan Parthasarathy Ohio State University, Columbus Most real networks can be represented by sparse graphs, and they tend to become denser over time. Studying the evolution of these networks is of immense interest to researchers. An ideal way to do this is to obtain real-world networks with time stamped edges, and model them based on graph snapshots. Unfortunately, complete temporal information is rarely available for existing networks. Additionally, data is often not in network form, and consists of objects (or vectors). Such data can be represented by graphs, and can be studied using graph measures. In particular, triangle counting in graphs is an important algorithmic problem owing to its significant role in exploratory data mining, graph mining and statistical data analysis. In our work, we seek to make the process of counting triangles faster, using node-sampling techniques, as similaritybased graphs get denser. We propose a scheme to estimate triangle counts in larger graphs by observing it on a series of smaller graphs. Using a triangle counting algorithm as a black box, we implement our method on 10 real-world data sets. We show that this method predicts triangle counts with low errors, and results in considerably less computational time. 100 Indo-US Science & Technology Forum Soumya Ranjan Sahoo National Institute of Technology, Rourkela Navier-Stokes/Darcy Coupling on Complex Geometries Mentor Dominik Schillinger University of Minnesota, Minneapolis We present the coupling of NavierStokes/Darcy equations to model the filtration of incompressible fluid through porous media of human liver. The Navier-Stokes equations are used for the motion of incompressible free fluids while Darcy equations are adopted to model the filtration process. These equations are coupled through suitably chosen conditions that describe the fluid flow across the surface of the porous media through which the filtration occurs. For our problem we have used immersogeometric finite element method. For the analysis we have used PetIGA software. PetIGA, a code framework which is used to approximate the solution of partial differential equations using NURBS-based Galerkin finite element method (FEM), popularly known as iso-geometric analysis (IGA). It is heavily based on PETSc, the Portable, and Extensible Toolkit for Scientific Computation. PETSc is a collection of a high-performance library for the scalable solution of partial differential equations. The solution scheme is an immersed finite element method, which is used for the interaction of complex fluid and immersed deformable structure. In this method we can perform the discretization for both the solid and fluid independently. This method has the capability of handling nonuniform and independent meshes by applying the arbitrary boundary condition on different domains. The modeling and meshing of the liver is performed by using Autocad software. Giving Wings to Talent | Student Symposium 101 Subrata Singha Indian School of Mines Dhanbad Fluid Saturation Change and Pressure Change Estimation from Time-Lapse Seismic Data Mentor Mrinal K. Sen University of Texas, Austin Pressure change along with fluid-saturation changes creates abnormal seismic response. It is very difficult to separate these two effects from seismic data. In most time-lapse studies, seismic differences between a baseline and monitor surveys are analysed and interpreted as either a pressure effect or a fluid effect. Seismic amplitude depends upon velocity and density contrast across the interface. It varies with angle of incidence also. Rock physics models establish the relations between seismic parameters with effective pressure and fluid saturation. Using rock physics model seismic parameters for a particular rock can be calculated for given fluid saturation and pressure. So, seismic parameters are affected due to change in pressure and fluid saturation and change in seismic parameters will change the seismic amplitude. It is very clear that pressure and saturation change modify seismic amplitude variation with angle. I worked with synthetic time-lapse data. A twolayer model was considered and it was assumed that there is no change in effective pressure and 102 saturation during production and all the changes are taking place in the second layer. Seismic parameters for the first layer were assumed and fixed for both pre-production and post-production model. For the lower layer i.e. reservoir layer seismic parameters for both preproduction and post-production were calculated using rock physics theories. After this I created synthetic PP-reflection data using AVA equations. Change in intercept and gradients were calculated and those are related to change in pressure and saturation through Landro’s equations. Using those equations change in pressure and saturation were computed. Though saturation change was computed correctly but pressure change results were not good. So, I went for the error contour plot and found that there is high uncertainty in pressure change estimation. So next I used PP+PS reflection coefficients for computing change in pressure and saturation for the same model and the results were better than the previous one. Again I went for error plot and found that uncertainty in estimation was reduced. Indo-US Science & Technology Forum Srishti Bhutani National Institute of Technology, Kurukshetra Analytical Evaluation of Unreinforced Masonry Stability Mentor Arturo Schultz University of Minnesota, Minneapolis Unreinforced Masonry (URM) construction is one of the oldest types of construction. Structures made from unreinforced masonry are very much vulnerable to collapse in an earthquake. A major portion of existing buildings is made from unreinforced masonry material and hence it is most important to investigate its stability under various loading events. In the scope of the project, an investigation was done on the influence of lateral loads on the critical(buckling) axial loads in unreinforced masonry(URM) walls. A finite element analysis model was developed through a software named ABAQUS for a variety of solid and hollow URM walls. The material was assumed to have no tensile strength and to have linear elastic response to compression stresses. Under the project, finite element meshes were formulated to represent the various cases of URM walls, loading procedures were developed to simulate the external compression and uniformly distributed lateral loading(i.e. pressure) and then finite element solutions were verified by using a formula derived from an approximate analytic solution. Agreement to a certain extent was achieved between the results from earlier developed formulae and results from ABAQUS analysis. Giving Wings to Talent | Student Symposium 103 Suman Ghosh Jadavpur University, West Bengal Appliance Reader: A Wearable, Crowd-sourced, Vision-based System to Make Appliances Accessible Mentor Jeffrey Bigham Carnegie Mellon University, Pittsburgh Visually impaired people have difficulty using everyday appliances in unfamiliar setups. ApplianceReader combines a wearable pointof-view camera with on-demand crowdsourcing and computer vision to make appliance interfaces accessible. The system sends preprocessed photos of the unseen appliance interface to online crowd workers, who work in parallel to quickly label and describe elements of the interface in depth. During appliance operation, the system takes in live video stream from the wearable camera (eg. Google Glass). Based on the task to be done, we use object recognition and feature matching to find targets within the live video stream. Computer vision techniques are used to track the user’s finger pointing at the controls. The system then uses audio feedback to intuitively guide the user’s finger from its current location to the target location minimizing the number of turns and backtracking. This enables blind users to interactively explore and use appliances without asking the crowd repetitively. ApplianceReader broadly demonstrates the potential of hybrid approaches that combine the reliability of human knowledge and speed of automation to effectively realize intelligent, interactive access technology. 104 Indo-US Science & Technology Forum Ujash Shah Birla Institute of Technology and Science, Goa Numerical Simulation of Waves in Stratified Seas to Validate Cloaking Mentor A. Ardekani Purdue University, West Lafayette Present work deals with numerical validation of a cloaking phenomenon of floating objects in stratified fluids. Sharp vertical variations in fluid density, called ‘pycnoclines’, are caused by temperature and/or salinity gradients and ubiquitously occur in oceans. Internal waves, formed in these gravity-stable stratified environments, oscillate and propagate within fluid medium. The invisibility cloaking of gravity waves is achieved by utilizing a nonlinear resonance concept that occurs between surface and internal waves mediated by the bottom topography. The purpose of present work is to validate this phenomenon with the help of Direct Numerical Simulation. A Numerical Wave Tank is set-up using an open-source flow solver called Gerris. The set-up has been developed and tested to make it versatile for testing the cloaking phenomenon. Preliminary results on cloaking behavior are obtained for potential flow. Further work is being continued to include the effects of viscosity and internal wave breaking on cloaking. Giving Wings to Talent | Student Symposium 105 Vivek Pandey Indian Institute of Technology, Roorkee Simple & Low Energy Consuming Synthesis of Naphthoxazines and Their Properties Mentor Hatsuo Ishida Case Western Reserve University, Cleveland Polymeric material development involves developing new materials or modifying existing materials to overcome the shortcomings of the conventional polymers. Polybenzoxazines came as a new polymer to overcome shortcomings of phenolics but still requires further research to eliminate other disadvantages to make it more industrial friendly. Elevated temperature properties make it applicable in aerospace fields and combination of properties like low dielectric constants and loss factor makes it usable for electronic packaging materials. These resins can be attractive for composite material manufacturing and also for non-flammable materials for the transportation industry. The rich molecular design flexibility of benzoxazine is useful to obtain polymeric materials with desired properties and application requirements. Incorporation of condensed polynuclear aromatic structure, such as naphthalene in a polymer, 106 can make it more thermally stable and thus increase its char yield. The resultant material is a naphthoxazine rather than a benzoxazine. Four kinds of naphthoxazines were synthesized and their thermal & thermo-rheological properties were analysed. The most attractive naphthoxazine was also selected. Thus, a new polymer precursor was developed that solved many of the problems encountered in the field by possessing significant advantages for actual production and applications, such as low energy consumption because of a short synthetic scheme and room temperature reaction in the entire preparation process. The polymerization temperature of this material is significantly lower than ordinary benzoxazine monomers. In these 3 months of the program, we also prepared the first draft of research paper for this new work. Thus, to keep confidentiality of the work before publication, this abstract is incomplete. Indo-US Science & Technology Forum Venkatachalam Avadiappan Indian Institute of Technology, Madras Model for Variable Temperature Heat Integration Mentor Christos T Maravelias University of Wisconsin-Madison The project is about building a model for variable temperature heat integration which involves the optimization of heat recovery systems and process operating conditions in order to minimize the energy consumption in a process. It is about how efficiently heat can be exchanged between the hot and cold streams Sometimes heat available with the hot streams may not be sufficient to heat the cold streams in that case, hot utility (steam) is needed. If heat available with the hot streams is in excess of the heat which can be exchanged with the cold stream, then cold utility (cooling water) is needed. So far researchers have worked on models with fixed temperature intervals and my project is about extending it to the case of variable temperature intervals Constraints are written to construct the temperature intervals based on the inlet and outlet temperatures of the streams. The temperature intervals spanned by the streams are found and their corresponding heat duties are calculated and the expanded transshipment model is used to calculate the minimum utility requirement. This model is further extended to the case of multiple hot, cold utilities and the case when flow rates are also variables. Giving Wings to Talent | Student Symposium 107 Indo-US Science and Technology Forum The Viterbi School of Engineering, University of Southern California (USC) and the Indo-US Science and Technology Forum (IUSSTF) have partnered to support the Viterbi-India Program. This program provides opportunities to Indian students to undertake a research internship at the Viterbi School of Engineering each summer for a period of 8 weeks. The Viterbi-India Program is envisaged to • • • • Provide an opportunity to the best and brightest Indian students to gain exposure and access to world class research facilities in the Viterbi School. Promote research and capacity building in frontline areas of engineering and technology. Encourage outstanding students to take up research as a career. Pave the way for the next generation engineers from India to interact with American peers, thus help building long-term R&D linkages and collaborations. Eligibility • • Indian students currently pursuing a Bachelors or Masters degree at recognized institutions of higher education in India. Open to students of Electrical Engineering, Computer Sciences and Computational Sciences. Scholarship includes: • • Stipend Air-fare More information is available at http://www.iusstf.org/story/53-51-Viterbi-India-Program.html Aakanksha Naik Birla Institute of Technology, Pilani Exploring the Effectiveness of Query Expansion Techniques in Improving Language Understanding for Virtual Humans Mentor Anton Leuski University of Southern California, Los Angeles The project focused on improving the accuracy of NPCEditor, software developed by the Natural Language Dialog group at Institute of Creative Technologies with the help of query expansion techniques. This software uses a training set of question-answer pairs in conjunction with cross-lingual information retrieval techniques to develop a classifier which can accurately retrieve answers to new questions. But this approach has certain issues. If the new questions use slightly different vocabulary, then the retrieval process might not be very accurate. Also, huge amount of training data is required to get accurate results which require considerable human effort. Query expansion techniques can make use of external knowledge sources such as wikipedia to gain more information about the questions in the training set, and store this extra information along with the training data. Using this extra information as well during the training procedure can lead to more accurate retrieval results. 112 Indo-US Science & Technology Forum Adarsh Amarendra Tadimari Indian Institute of Technology, Madras Using Trailers to Predict Movie Revenues Mentor Shrikanth Narayanan University of Southern California, Los Angeles Movie trailers are designed to get people interested about the movie. The trailers could be strong predictors of the initial success of a movie, i.e. its opening weekend gross. Work done so far is based on movie metadata (actors, director, writers, MPAA rating, budget, etc), critic reviews and social media content (for example, rate of tweets on Twitter). On preliminary investigation into use of content for prediction, we find that inclusion of audio and video features from the trailer of a movie improves the explained variance in the prediction of its opening weekend gross. Giving Wings to Talent | Student Symposium 113 Aditi Gupta Birla Institute of Technology and Science, Pilani Automatically Mapping Datasets to a Large Real Word Ontology Mentor Craig Knoblock University of Southern California, Los Angeles The project focused on improving the accuracy of the semantic typing module of the data integration tool ‘karma’. Schema.org, a common web mark-up supported by Google, Microsoft and Yahoo was used as our training data. It supports data tuples in the form of Nquads consisting of subject, predicate, object and the web page source. The task at hand was to teach the system correct semantic labels of different classes and data properties so that based on the examples seen in the past the system can correctly predict semantic labels for the uploaded columns. Training on up to 25 terabytes of data we conducted different experiments to analyze the effect of training on a limited dataset and the effect of extending the training coverage. We observed that training on limited amount of training tuples performed no worse than training on the entire dataset but drastically reduced the training time. Also increasing the extent of coverage of semantic labels displayed a counter effect in the form of increased mis-prediction rate when identifying the correct semantic label for the column. Future work includes parallelizing the training algorithm and training on more real world ontologies. 114 Indo-US Science & Technology Forum Aditya Chandrasekar Birla Institute of Technology, Hyderabad Modeling Topics in Scientific Literature using HMM and LDA Mentor Prem Natarajan University of Southern California, Los Angeles The goal of the project is to model topics in the ACL Anthology Reference Corpus, which is a collection of 9834 scientific papers published in journals and presented at conferences and workshops related to computational linguistics. We use two methods to do topic modeling on this corpus: Latent Dirichlet Allocation (LDA) and Hidden Markov Model based Latent Dirichlet Allocation (HMM-LDA). Topic modeling using these two techniques will be used in automatically generating reading lists. Topic modeling algorithms do not require any prior annotations or labeling of the documents—the topics emerge from the analysis of the original texts. Topic modeling enables us to organize and summarize electronic archives at a scale that would be impossible by human annotation. We also aim to group similar topics that have been discovered by different techniques. Giving Wings to Talent | Student Symposium 115 Ankit Goyal Indian Institute of Technology, Kanpur A Multimodal Approach to Continuous Emotion Prediction in Movies Mentor Shrikant Narayanan University of Southern California, Los Angeles The project aimed to develop a system which can dynamically predict the emotions expressed in a movie clip. Such a system has numerous applications like building emotion based video recommendation system, studying how emotion profile affects a movie’s gross etc. We used a dataset consisting of 12 movie clips of 30 minute each. Emotions in these movie clips are annotated with arousal and valence values between [-1,1] continuous in time scale. We designed and tested features both from audio and video modalities that could to used to predict arousal and valence. From the audio modality we used mfcc, chroma, compressibility and harmonicity features and from the video modality we used face histogram, video compressibility, shot frequency, HOOF and HSV histogram features. We analyzed how audio and video modalities individually perform. We also developed different fusion model which used the complementary information present in both the modalities and analyzed its performance. 116 Indo-US Science & Technology Forum Atharva Girish Wazurkar International Institute of Information Technology, Hyderabad Low Power Digital to Analog Converter in 28nm Technology for Fine Grained Programmable Delay Element Mentor : Peter A. Beerel University of Southern California, Los Angeles Delay elements (DEs) are widely used in VLSI systems to control the timing of various Delay elements (DEs) are widely used in VLSI systems to control the timing of various signals. In modern technologies, PVT variations, dynamic fluctuations, and transistor mismatches have all become more severe, which has made the post-silicon tunability of DEs critical. This has led to resilient architectures of VLSI systems. To avoid unnecessary margins, these delay lines should be fine-grained providing the precise timing needed. Although these DEs can be used in delay-locked loops (DLLs), digitalcontrolled oscillators (DCOs), and others but our main application is Blade, a timing violation resilient asynchronous template, in which it will be used as delay lines. In this project we designed Low Power Digital to analog Converter (DAC) in 28nm technology for fine grained programmable DEs. For low power DAC we proposed Gated Current mirror cell which reduces static power dissipation to nanowatts range.The gated current cell is used in current steering based DAC which has linear characteristics and very low glitches. The output of DAC is connected to back body or gate of pMOS which is connected to current starving inverter to form delay element. The obtained delay element has fine resolution of 0.4ps with linear characteristics. Giving Wings to Talent | Student Symposium 117 Avisek Lahiri Indian Institute of Technology, Kharagpur Large Scale Video Event Classification Mentor Ram Nevatia University of Southern California, Los Angeles Event recognition has been an important topic in computer vision research due to its many applications. However, most of the work has focused on videos taken from a fixed camera, known environments and basic events. Here, we focus on classification of unconstrained, web videos into much higher level activities. We follow the approach of constructing fixed length feature vectors from local feature descriptors for classification using an SVM. Our key contribution is the study of the utility of multi scale Fisher Vector representation in improving results compared to the conventional Bag-ofWords (BoW) approach. We perform tests on the challenging NIST TRECVID Multimedia Event Detection (MED) dataset, which has thousand hours of unconstrained user generated video. Multiscale representation achieves better mAP performance compared to entire video level features. 118 Indo-US Science & Technology Forum Biswajit Paria Indian Institute of Technology, Kharagpur Feature Learning in Clinical Time Series using Deep Learning Mentor Yan Liu University of Southern California, Los Angeles The current state of art AI systems for automatic diagnosis are still too unstable to be recommended for practical purposes. There have been multiple approaches to this problem using various machine learning architectures. We attempt a solution to this problem using Deep Learning. Deep Learning is a new paradigm of machine learning that is yet to be exploited fully. This project aims at practical methods for automatic phenotyping which is analogous to feature extraction in the machine learning domain. The main reasons behind using a deep learning setting are the recent breakthroughs on benchmark datasets by deep learning algorithms. Our method involves feeding the medical time series data into an auto-encoder based deep network and extracting good features to help classification of diseases. We analyze the extracted features and try to interpret them using decision trees. Interpretability of features can help discover significant hidden traits among diseases, leading to new forms of medical diagnoses. We further plan to extend the implementation to Recurrent Neural Networks, which are a natural choice to time series data. Giving Wings to Talent | Student Symposium 119 Jayashree Mohan National Institute of Technology, Surathkal Analyzing Single-Phase Downloads over Random Duration Links in Mobile Networks Mentor Bhaskar Krishnamachari University of Southern California, Los Angeles In the near-future, all cars will be equipped with dedicated short range communication radios, allowing them to talk to other cars on the road, for safety as well as various infotainment applications. The cellular industry is also exploring the design of device to device (D2D) communication schemes in order to improve network capacity. A common challenging problem in these domains is organizing efficient communication between the radio-equipped vehicles or devices which may encounter each other for a random duration. We consider a fundamental problem in this domain i.e. to maximize the amount of useful content downloaded by a client from a server over an encounter that lasts a random amount of time. Assuming that the distribution of link duration is known or estimated a priori based on historical as well as real-time measurements, we propose a protocol called MERLIN (Maximum Expected download over Random LINks), a single-phase file request protocol that is provably optimal. We have shown how the optimal number of requests can be derived mathematically, and through simulations investigated how various parameters affect the performance of MERLIN. 120 Indo-US Science & Technology Forum Kushal Dilipkumar Salecha Indian Institute of Technology, Gandhinagar Smart Grids Mentor Viktor Prasanna University of Southern California, Los Angeles Demand Response (DR) is a widely used and a promising method to minimize the peak to average consumption ratio during high demands. State of the heuristics have been proposed and designed over the years to solve similar problems. One such heuristic was already developed by the team. But we observe that the quality of solutions is not good and we obtain large errors in certain cases (errors as high as above 90 percentage). In this paper we present a mathematical modelling of the problem that helps us obtain optimal solutions. We model the efficient customer selection problem for load curtailment as a simple Integer Linear Programming Problem (ILP). Various solution techniques can be used to solve this ILP and achieve desired load curtailment. Approximate and randomized algorithms cWe use an industry standard solver to get optimal solutions. We further formulate a theorem which shows how heuristic can give really bad solutions. While our technique gives exactly optimal solutions in less than a minute in all most all cases. Giving Wings to Talent | Student Symposium 121 Megha Arora Indraprastha Institute of Information Technology, Delhi Understanding the Impact of Demographics on Sociability Mentor Kristina Lerman University of Southern California, Los Angeles Sociability is the preference for being with others rather than being alone. Psychologists posit a relationship between socioeconomic environment, cognitive factors and sociability. In recent times, people have started using Online Social Networks for their interactions. Twitter is a popular platform for online social interactions, as it enables people to interact virtually through ‘user mentions’. We have tried to understand the social interactions taking place on Twitter by linking them to US census tracts and understanding how demographics impact these interactions. Our analysis suggests that demographic, cognitive and socioeconomic factors strongly correlate with Sociability and these correlations are vividly traceable in social interactions on Twitter. 122 Indo-US Science & Technology Forum Mehak Gupta Indian Institute of Technology, Roorkee Evidence of Non-Linear Manifold in fMRI data Mentor Richard M. Leahy, University of Southern California, Los Angeles fMRI is a modern non-invasive imaging technology which can be used to identify regions in the brain that get activated when participants perform certain tasks. fMRI measures time-series (15-minutes, 1200 samples) BOLD activity in the cortex. If there is a redundancy in the acquired BOLD activity, it can be represented in a lower dimensional manifold (<<1200). The data we used was fMRI data of left hemisphere of the subject. It was standardized and was filtered using nonlocal means. Our study included reducing 1200 dimensional data to a lower dimensional space. The data comprised of 10203 vertices with Corpus Callosum removed. We used various manifold learning techniques to reduce the dimensionality of large dataset. A non-linear combination of different networks might be present in fMRI data which can be uncovered using non-linear embedding. If there exists a non-linear manifold in the fMRI data, non-linear embedding will produce better and noise-free representation of the BOLD data, which can be used for parcellation and further analysis. Techniques that were used comprised of MultiDimensional Scaling, Locally Linear Embedding and Isomap. Our results show that Isomap outperforms other techniques and indicates the existence of non-linear manifold in fMRI. Giving Wings to Talent | Student Symposium 123 Prakhar Kumar Birla Institute of Technology, Pilani Neuromorphic CircuitsNeural Network Simulations Mentor Mike Chen University of Southern California, Los Angeles Neuromorphic circuits are those circuits which try to emulate the computational power of the human brain. This means that the hardware needs to be taught how to learn like the human brain. For our purpose we are implementing a face recognition system, to which face detection is a pre-requisite. So we have tried to implement the face detection part first. Before translating it to hardware, it is simulated using neural networks on MATLAB. The neural network architecture was decided keeping in mind the hardware implementation aspect. For this purpose, we tried to combine two different architecturesconvolutional networks for better learning and spiking networks for power efficient hardware implementation. 124 Convolutional Neural Networks (CNNs): are hierarchical neural networks where the parameters consist of a set of trainable filters. It has 3 basic layer types: •C onvolution layer: for feature extraction •P ooling layer: for down sampling data to reduce the number of parameters. •M ulti layer perceptron: is the final layer and used as a classifier. Spiking Neural Networks (SNNs): SNNs are biologically more plausible models as compared to others, since here the neurons use spikes to communicate with each other. As the synaptic potential incoming to a particular neuron increases above a certain threshold, it spikes to a large potential followed by a refractory period wherein no spiking can occur. Indo-US Science & Technology Forum Rucha Sanjay Vaidya College of Engineering, Pune Usage of DTN for Ebola Monitoring and Response Mentor John Wroclawski University of Southern California, Los Angeles The problem statement was to design a communication network in the regions affected by Ebola in Africa to transfer health care related data. The current African Network condition was found to be very poor in terms of Internet connectivity. A network model was developed for connecting the health-centres in villages with the main city using Delay Tolerant Networks(DTN) which have the capability of handling partitioned networks effectively with intermittent connectivity and allowing data transfer even in the absence of connection. A model was developed for file transfer using DTN software and tested on the DETER Testbed by varying number of nodes, patient arrival distribution and memory constraints. This model gave an insight into modeling the Ebola Monitoring and Response Project initiated by the World Bank. Giving Wings to Talent | Student Symposium 125 Sagar Kashinath Honnungar Indian Institute of Technology, Madras Target Detection Via LowRank Tensor Completion Mentor Urbashi Mitra University of Southern California, Los Angeles The problem of target detection is pervasive across a number of domains, from environmental to military, especially in underwater applications, it is a challenging task because of limitations of resources such as power and sensing capabilities. However, it is usually observed that the target signature is present in many modalities. In chemical plume detection, for example, the chemical signature might be present in various ways such as chemical concentration and drift rate at a particular location. In this work, we consider the problem of joint sensing of the target signatures and detection of the source by using these data simultaneously. We designed a novel tensor based field model and localization algorithm for detecting the location of a target in a two-dimensional search space by sampling multiple fields (measureable quantities which are affected by the target in the search region) simultaneously. These multiple two-dimensional scalar fields together are modelled as a third-order tensor. The resulting tensor is sampled at some locations and low-rank tensor approximation methods are used to recover the target location. We also showed that there is a gain in probability of detection in our model where we use multiple fields jointly as compared to using individual fields separately. 126 Indo-US Science & Technology Forum Saurav Prakash Indian Institute of Technology, Kanpur Reducing Complexity for Signal Processing on Graphs Mentor Salman Avestimehr University of Southern California, Los Angeles Recently, efforts have been made to characterise the frequency domains for signals residing on the nodes of a weighted graph. The edge weights capture data correlation: greater an edge weight, smoother the signal on the corresponding nodes. Analogous to the classical signal processing, frequency can be defined for graphs. The eigenvalues and eigenvectors of the graph Laplacian define the frequency domain for graph signals on. An eigenvector associated with a larger eigenvalue represents a faster variation of graph signal. Thus, one can define a cut-off frequency for the bandlimited graph signals that can be reconstructed from a given set of samples (i.e. graph nodes). The aim is to find an optimal sampling set given a cut-off frequency. As shown recently, this can be computed exactly. However, the complexity is polynomial in the number of nodes. Recent work have shown that graphs associated with large, real datasets are sparse in nature, i.e., where is the number of edges. The aim of the project was to develop an algorithm to find an optimal sampling set with complexity nearly linear in. We came across a framework for learning from labeled and unlabeled data. The time complexity of the algorithm derived from this framework is nearly linear due to recently developed numerical techniques. The framework is apparently closely related to the bandlimited interpolation of graph signals. In future, we want to explore these connections in our attempt to find an optimal sampling set with reduced complexity. Giving Wings to Talent | Student Symposium 127 Tathagata Srimani Indian Institute of Technology, Kharagpur Electronics and Optoelectronics of a novel Transition Metal Dichalcogenide Mentor Prof Chongwu Zhou University of Southern California, Los Angeles Semiconducting transition metal dichalcogenides (TMDCs) have attracted lot of attention recently, because of their interesting electronic, optical, and mechanical properties. Among large numbers of TMDCs, monolayer of tungsten diselenides (WSe2) is of particular interest since it possesses a direct bandgap and tunable charge transport behaviors, which make it suitable for a variety of electronic and optoelectronic applications. Direct synthesis of large domains of monolayer WSe2 and their growth mechanism studies are important steps toward applications of WSe2. The work was on systematical studies on Physical vapor deposition(PVD) growth of monolayer and few layer WSe2 flakes directly on silica substrates with investigations on how growth parameters, with emphasis on growth temperatures and durations, affect the sizes, layer numbers, and shapes of as-grown WSe2 flakes. The WSe2 flakes were characterized using optical microscopy, atomic force microscopy, Raman spectroscopy, and photoluminescence spectroscopy. These results deepen our understandings on the vapor phase growth mechanism of WSe2, and may benefit the uses of these PVD-grown monolayer materials in electronic and optoelectronics. 128 Indo-US Science & Technology Forum Vikranth Reddy Dwaracherla Indian Institute of Technology, Bombay Developing a Stereo Vision Algorithm Mentor Jay Kuo University of Southern California, Los Angeles We tried to develop a new stereo vision algorithm which helps us in extracting 3D information (disparity map) by taking 2D images as input. Disparity is the shift in the location of object from one image (left/right) to another. Depth is inversely proportional to disparity. Stereo Vision is inspired by the way we see the world in 3D using left and right eyes. In this algorithm, we start by defining a measure of confidence for all possible disparity values at each pixel of the image. Next, we pick reliable pixels using measures such as peak distinctiveness and thresholding on the minimum cost to remove low textured and occluded pixels respectively. This generates a sparse disparity map. Now, using this sparse disparity map of reliable pixels and Contour guided Color Palette (CCP) segmentation, we generate a dense disparity map. This can be refined further by using energy minimization algorithm. The disparity map gives us depth information. It has applications in Robotics, Object Recognition, etc. Giving Wings to Talent | Student Symposium 129 Notes Indo-U.S. Science & Technology Forum Fulbright House, 12 Hailey Road, New Delhi-110 001 www.iusstf.org Designed, Produced and Printed by [email protected]