Towards an Algebraic Network Information Theory: Distributed Lossy Computation of Linear Functions

S. Lim, Chen Feng, A. Pastore, B. Nazer, M. Gastpar
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引用次数: 5

Abstract

Consider the important special case of the K-user distributed source coding problem where the decoder only wishes to recover one or more linear combinations of the sources. The work of Körner and Marton demonstrated that, in some cases, the optimal rate region is attained by random linear codes, and strictly improves upon the best-known achievable rate region established via random i.i.d. codes. Recent efforts have sought to develop a framework for characterizing the achievable rate region for nested linear codes via joint typicality encoding and decoding. Here, we make further progress along this direction by proposing an achievable rate region for simultaneous joint typicality decoding of nested linear codes. Our approach generalizes the results of Körner and Marton to computing an arbitrary number of linear combinations and to the lossy computation setting.
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迈向代数网络信息论:线性函数的分布有损计算
考虑k用户分布式源编码问题的重要特殊情况,其中解码器只希望恢复源的一个或多个线性组合。Körner和Marton的工作表明,在某些情况下,最佳速率区域是由随机线性码获得的,并且严格改进了通过随机识别码建立的最知名的可实现速率区域。最近的努力试图通过联合典型编码和解码来开发一个框架来表征嵌套线性码的可实现速率区域。在这里,我们沿着这个方向进一步发展,提出了一个可实现的速率区域,用于嵌套线性码的同时联合典型解码。我们的方法将Körner和Marton的结果推广到计算任意数量的线性组合和有损计算设置。
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