NASIT2009 Thursday - Student Poster Presentations (1/2)
Titles of posters presented on Thursday 08/13 11am-12:30pm
- Debashis DashÌýÌýÌý Rice UniversityÌýÌýÌý Paranoid Secondary: Power-control for Bursty Cognitive Interference Channel
- Nebojsa MilosavljevicÌýÌýÌý University of California BerkeleyÌýÌýÌý Secure Communication using an Untrusted Relay via Sources and Channels
- Jonathan PonniahÌýÌýÌý University of Illinois at Urbana-ChampaignÌýÌýÌý An Achievable Rate Region for the Two-Way Two-Relay Channel
- David KaoÌýÌýÌý Rice UniversityÌýÌýÌý Impact of Network Topology Knowledge on Fairness: A Geometric Approach
- Hamid BehrooziÌýÌýÌý Queen's UniversityÌýÌýÌý Hybrid Digital-Analog Joint Source-Channel Codes for Broadcasting Correlated Gaussian Sources
- Xuechen ChenÌýÌýÌý University of California in RiversideÌýÌýÌý High Resolution Predictive and Transform Wyner-Zive Coding of Gaussian Sources
- Shirin JalaliÌýÌýÌý Stanford UniversityÌýÌýÌý An Implementable Scheme for Universal Lossy Compression
- Hemant KowshikÌýÌýÌý University of Illinois Urbana ChampaignÌýÌýÌý Zero Error Function Computation in Sensor Networks
- Matt ReyesÌýÌýÌý University of MichiganÌýÌýÌý Arithmetic Encoding of Markov Random Fields
- Xi LiuÌýÌýÌý Polytechnic Institute of NYUÌýÌýÌý A Secure Communication Game with a Relay Helping the Eavesdropper
- Jing YangÌýÌýÌý University of Maryland, College ParkÌýÌýÌý Delay-minimal Transmission for Average Power Constrained Multi-access Communications
- Chia-han LeeÌýÌýÌý University of Notre DameÌýÌýÌý Interference in the Cognitive Radio Networks
- Raheleh NiatiÌýÌýÌý Carleton UniversityÌýÌýÌý On Code Design in Joint MAC Scheduling and Wireless Network Coding
- Rui (Ray) MaÌýÌýÌý University of Illinois, Urbana-ChampaignÌýÌýÌý Using Feedback Information Theory and Statistical Signal Processing for Designing High-performance Brain Machine Interface
- RaghunandanÌýÌýÌý Stanford UniversiyÌýÌýÌý Matrix Completion from a Few Entries
- Yihong WuÌýÌýÌý Princeton UniversityÌýÌýÌý Fundamental Limits of Almost Lossless Analog Compression
- Sunil SrinivasaÌýÌýÌý University of Notre DameÌýÌýÌý Path Loss Exponent Estimation in a Large Field of Interferers
- Yan ZhuÌýÌýÌý Northwestern UniversityÌýÌýÌý Isotropic MIMO Interference Channels without CSIT: The Loss of Degrees of Freedom
- Amin Jafarian ÌýÌý California Institute of Technology Ìý Ìý Breaking Through the Thresholds: an Analysis for Iterative Reweighted L1 Minimization Algorithm via the Grassmann Angle Framework
- Fabio IannelloÌýÌýÌý New Jersey Institute of TechnologyÌýÌýÌý On the Design of Passive RFID Tags with RF-energy Harvesting
- Viveck CadambeÌýÌýÌý University of California, IrvineÌýÌýÌý When is Separate Coding Optimal in Parallel Wireless Networks?
- Lili ZhangÌýÌýÌý Texas A&M UniversityÌýÌýÌý Capacity Bound and Achievable Rates for Half-duplex Gaussian Relay Channels with Correlated Noises
- Radha Krishna GantiÌýÌýÌý University of Notre DameÌýÌýÌý The Transport Capacity of a Wireless Network is a Subadditive Euclidean Functional
- Kyle MorrisonÌýÌýÌý University of Massachusetts AmherstÌýÌýÌý A Unified Framework for Low-Complexity Ultra-Wideband Signaling
- Mahdi RamezaniÌýÌýÌý University of AlbertaÌýÌýÌý Disjoint LDPC Coding for Gaussian Broadcast Channels
- Amin A. GohariÌýÌýÌý University of California, BerkeleyÌýÌýÌý Evaluation of Marton's Inner Bound for the General Broadcast Channel
- Min LiÌýÌýÌý The Pennsylvania State UniversityÌýÌýÌý Structured LDPC Code Design and its Reconfigurable Decoder Implementation
- Mohsen SardariÌý Georgia Tech Ìý Ìý File Sharing in Distributed Networks with Minimum Delay
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