Abstract:
The problem of truly-lossless (Pe=0) distributed source coding requires knowledge of the joint statistics of the sources. In particular the locations of the zeroes of the...Show MoreMetadata
Abstract:
The problem of truly-lossless (Pe=0) distributed source coding requires knowledge of the joint statistics of the sources. In particular the locations of the zeroes of the probability mass functions (pmfs) are crucial for encoding at rates below (H(X),H(Y)). We consider the distributed computation of the empirical joint pmf Pn of a sequence of random variable pairs observed at physically separated nodes of a network. We consider both worst-case and average measures of information exchange and treat both exact calculation of Pn and a notion of approximation. We find that in all cases the communication cost grows linearly with the size of the input. Further, we consider the problem of determining whether the empirical pmf has a zero in a particular location and show that in most cases considered this also requires a communication cost that is linear in the input size
Date of Conference: 27 June 2004 - 02 July 2004
Date Added to IEEE Xplore: 10 January 2005
Print ISBN:0-7803-8280-3