Efficient coding for multi-source networks using Gács-Körner common information

Salman Salamatian, Asaf Cohen, Muriel Medard

    Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

    Abstract

    Consider a multi-source multicast network coding problem with correlated sources. While the fundamental limits are known, achieving them, in general, involves a computational burden due to the complex decoding process. Efficient solutions, on the other hand, are by large based on source and network coding separation, thus imposing strict topological constraints on the networks which can be solved. In this work, we introduce a novel notion of separation of source and network coding using Gács-Körner Common Information (CI). Unlike existing notions of separation, the sufficient condition for this separation to hold depends on the source structure rather than the network topology. Using the suggested separation scheme, we tackle the problem of multi-source multicast. We construct efficient, zero error source codes, and via properties of the CI completely characterize the resulting rate region. We then study the complexity of the end-to-end scheme.

    Original languageAmerican English
    Title of host publicationProceedings of 2016 International Symposium on Information Theory and Its Applications, ISITA 2016
    Pages166-170
    Number of pages5
    ISBN (Electronic)9784885523090
    StatePublished - 2 Feb 2017
    Event3rd International Symposium on Information Theory and Its Applications, ISITA 2016 - Monterey, United States
    Duration: 30 Oct 20162 Nov 2016

    Publication series

    NameProceedings of 2016 International Symposium on Information Theory and Its Applications, ISITA 2016

    Conference

    Conference3rd International Symposium on Information Theory and Its Applications, ISITA 2016
    Country/TerritoryUnited States
    CityMonterey
    Period30/10/162/11/16

    Keywords

    • Common Information
    • Distributed Source-Coding
    • Network Coding

    All Science Journal Classification (ASJC) codes

    • Computer Networks and Communications
    • Hardware and Architecture
    • Information Systems
    • Signal Processing
    • Library and Information Sciences

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