Rate and power allocation under the pairwise distributed source coding constraint
Abstract
We consider the problem of rate and power allocation for a sensor network under the pairwise distributed source coding constraint. For noiseless source-terminal channels, we show that the minimum sum rate assignment can be found by finding a minimum weight arborescence in an appropriately defined directed graph. For orthogonal noisy source-terminal channels, the minimum sum power allocation can be found by finding a minimum weight matching forest in a mixed graph. Numerical results are presented for both cases showing that our solutions always outperform previously proposed solutions. The gains are considerable when source correlations are high.
Cite
@article{arxiv.0807.2292,
title = {Rate and power allocation under the pairwise distributed source coding constraint},
author = {Shizheng Li and Aditya Ramamoorthy},
journal= {arXiv preprint arXiv:0807.2292},
year = {2009}
}
Comments
The first version was published in ISIT 2008. The new version includes all detailed proofs and more simulation results. The latest version has been accepted by IEEE Transactions on Communications