From LINC
| Sriram Vishwanath | |
| |
| Email: | sriram at ece.utexas.edu |
|---|---|
| Office: | Template:ENS 439A |
About me
Sriram Vishwanath is an assistant professor at University of Texas at Austin in the department of Electrical and Computer Engineering. He received his Ph.D. from Stanford University in 2003, an M.S. from The California Institute of Technology in 1999 and B.Tech. from The Indian Institute of Technology, Madras in 1998. He received the NSF Early CAREER award and the Joint ITSoc/ComSoc best paper awards in 2005.
Publications
- A Heterogeneous CMOS-CNT Architecture utilizinig Novel Coding of Boolean Functions
- Adaptive Mode Switching in the MIMO Broadcast Channel
- Adaptive Sum Power Iterative Waterfilling for MIMO Cognitive Radio Channels
- An Energy-Based Comparison of Long-Hop and Short-Hop Routing in MIMO Networks
- Asymptotic Transport Capacity of Wireless Erasure Networks
- Broadcast Strategies for MISO and Multiple Access Channels
- Capacity Analysis of the Relay Channel with Correlated Sources
- Capacity Results for Multiple Access Channels with State and Feedback
- Capacity of Symmetric K-User Gaussian Very Strong Interference Channels
- Capacity to Within One Bit of a Class of Gaussian Multicast Channels with Interference
- Communicating the Difference of Correlated Gaussian Sources Over a MAC
- Cooperative Communication in Sensor Networks: Relay Channel with Correlated Sources
- Correlated Sources over a Noisy Channel: Cooperation in the Wideband Limit
- Enabling Source Channel Separation for Communication Networks : The Uplink Case
- Ergodic Interference Alignment
- Expressive Analytical Model for Routing Protocols in Mobile Ad Hoc Networks
- Gaussian Interference Networks with Feedback: Duality, Sum rate and Dynamic Team Problems
- Hybrid-ARQ in Multihop Networks with Opportunistic Relay Selection
- Hybrid Coding for Gaussian Broadcast Channels with Gaussian Sources
- Limits on Cognitive Communications in the Wide-band Regime
- Network Coding in Interference Networks
- Network Coding using Unital Modules over Rings
- Network With Costs: Timing and Flow Decomposition
- On Models for Multi-User Gaussian Channels with Fading
- On Secure Communications Over Wireless Erasure Networks
- On the Capacity of Cognitive Relay Assisted Gaussian Interference Channel
- On the Capacity of Gaussian Weak Interference Channels with Degraded Message sets
- On the Capacity of One-sided Two User Gaussian Fading Broadcast Channels
- On the Capacity of a Class of MIMO Cognitive Radios
- On the Secrecy Rate of Interference Networks Using Structured Codes
- Opportunistic Relay Selection with Limited Feedback
- Optimizing MIMO Antenna Placement and Array Configurations for Multimedia Delivery in Aircraft
- Pilot Contamination in Multi-Cell TDD Systems
- Precoding Methods for Multi-User TDD MIMO Systems
- Random Access Over Multiple Access Channels: A Queuing Perspective
- Rate Bounds for MIMO Relay Channels Using Message Splitting
- Rate Bounds for MIMO Relay Channels Using Precoding
- Relay-Assisted Scheduling in Wireless Networks with Hybrid-ARQ
- Relay Subset Selection in Wireless Networks Using Partial Decode-and-Forward Transmission
- Routing is Optimal in Erasure Networks with Interference
- Routing versus Network Coding in Erasure Networks with Broadcast and Interference Constraints
- Scheduling and Pre-Conditioning in Multi-User MIMO TDD Systems
- Secrecy Capacity for Semi-deterministic Wire-tap Channels
- Selection Strategies for Relay-Assisted Communication
- Sum Rate of the Vacationing CEO Problem
- The Impact of Channel Feedback on Opportunistic Relay Selection for Hybrid-ARQ in Wireless Networks
- The Secrecy Capacity of Parallel Gaussian Compound Wiretap Channels
- Unicast Transmission Over Multiple Access Erasure Networks: Capacity and Duality