Asaf Cohen
 
Department of Communication Systems Engineering,
Ben-Gorion University of the Negev.

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Last update: 10/10/09.

Short Bio; Research Interests; Courses; Current Research; Publications; Dissertations; Recent talks/posters; Pictures;

Short Bio: I am with the Department of Communication Systems Engineering, Ben-Gorion University of the Negev. Before that, I was a postdoc at Caltech, working with Prof. Michelle Effros on problems in network information theory. The projects were part of the ITMANET-FLoWS (Fundamental Limits of Wireless Systems) research. I received my B.Sc., M.Sc., and Ph.D. in electrical engineering from the Technion - I.I.T., supervised by Prof. Neri Merhav and Prof. Tsachy Weissman.

Research Interests:
  • Network source coding. Networks with side information. Simple representations for network solutions.
  • Prediction and sequential decision making. Source coding. Statistical signal processing. Filtering and denoising.
  • Coding theory. Performance analysis of codes.

Courses:

Current Research:
Abstract: Consider the problem of lossless source coding for networks with side information. This model captures scenarios where the network capacity is insufficient to describe the source to its intended destinations, yet, it can still be delivered without loss provided there is sufficient capacity from a helper. The problem of source coding with side information has numerous applications, from sensor networks, where transmission occurs through nodes which may have correlated data, to multimedia networks, where intermediate nodes may have, for example, a lower-resolution version of the required information.
    While several spacial cases of this problem have been addressed in the current literature (e.g., the three-node network of Ahlswede and Korner), the general problem remains unsolved. In this work, we derive inner and outer bounds on the rate region and describe sufficient conditions for the tightness of these bounds. Our approach demonstrates how strategies intended for small canonical problems, combined with network coding, can tackle complex networks, while still inheriting the desirable properties of the building blocks used. Furthermore, due to the complexity of solving large networks, it is highly desirable to identify the key parameters which dictate their rate region. This work substantially extends the network scenarios for which maxflow-mincut analysis is know to describe the rate region in full. Finally, in this work we open a new connection between networking and successive refinement of information.
Abstract: In this work, we address the following question: ``When can we guarantee the optimality of linear coding at all internal nodes of a network?" While sufficient conditions for linear coding throughout the network are known, it is not clear whether relaxing the linearity constraints at the terminal nodes can result in simpler operations at the internal nodes.
    We present a novel method to analyze the space of network solutions using the constraints resulting from the network topology, and we identify sufficient conditions for an optimal linear solution at all internal nodes. These conditions are also sufficient to characterize the rate region only in terms of Shannon information inequalities.

Journal Publications:
  • A. Cohen, M. Effros, S. Avestimehr and R. Koetter, ``Linearly Representable Entropy Vectors and their Relation to Network Coding Solutions,” in preparation (preprints available upon request, conference version below).
  • A. Cohen, S. Avestimehr, and M. Effros, ``Networks with Side Information,” in preparation (preprints available upon request, conference version below).

Conference Publications:

Dissertations:

Recent talks/posters:

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