Victoria Kostina
Professor of Electrical Engineering and Computing and Mathematical Sciences; Graduate Option Representative for Electrical Engineering
Research interests: information theory, coding theory, communications, control.
Overview
Victoria Kostina's research spans information theory, coding, and wireless communications. Her current efforts explore one of the most exciting avenues in today's information theory: the nonasymptotic regime. Leveraging tools from the theory of random processes and concentration of measure, she pursues fundamental insight into modern delay-constrained communication systems.
Publications
- Yavas, Recep Can;Kostina, Victoria et al. (2023) Variable-Length Sparse Feedback Codes for Point-to-Point, Multiple Access, and Random Access ChannelsIEEE Transactions on Information Theory
- Guo, Nian;Kostina, Victoria (2023) Reliability Function for Streaming Over a DMC With FeedbackIEEE Transactions on Information Theory
- Gündüz, Deniz;Kostina, Victoria et al. (2023) Guest Editorial Special Issue on the Role of Freshness and Semantic Measures in the Transmission of Information for Next-Generation NetworksIEEE Journal on Selected Areas in Information Theory
- Lahouti, Farshad;Kostina, Victoria et al. (2022) How to Query an Oracle? Efficient Strategies to Label DataIEEE Transactions on Pattern Analysis and Machine Intelligence
- Kostina, Victoria;Peres, Yuval et al. (2022) Exact minimum number of bits to stabilize a linear systemIEEE Transactions on Automatic Control
- Lin, Chung-Yi;Kostina, Victoria et al. (2022) Differentially Quantized Gradient MethodsIEEE Transactions on Information Theory
- Sabag, Oron;Kostina, Victoria et al. (2022) Feedback capacity of Gaussian channels with memory
- Guo, Nian;Kostina, Victoria (2022) Reliability function for streaming over a DMC with feedback
- Yavas, Recep Can;Kostina, Victoria et al. (2022) Third-order Analysis of Channel Coding in the Moderate Deviations Regime
- Yang, Hengjie;Yavas, Recep Can et al. (2022) Variable-Length Stop-Feedback Codes With Finite Optimal Decoding Times for BI-AWGN Channels
Related Courses
2023-24
EE/Ma/CS/IDS 127 – Error-Correcting Codes
EE/Ma/CS/IDS 136 – Information Theory and Applications
EE 55 – Mathematics of Electrical Engineering
2022-23
EE/Ma/CS/IDS 136 – Information Theory and Applications
EE/CS/IDS 160 – Fundamentals of Information Transmission and Storage
2021-22
EE/Ma/CS/IDS 127 – Error-Correcting Codes
EE 55 – Mathematics of Electrical Engineering
2020-21
EE/CS/IDS 160 – Fundamentals of Information Transmission and Storage