Toward Resource-Optimal Consensus over the Wireless Medium
Abstract
We carry out a comprehensive study of the resource cost of averaging consensus in wireless networks. Most previous approaches suppose a graphical network, which abstracts away crucial features of the wireless medium, and measure resource consumption only in terms of the total number of transmissions required to achieve consensus. Under a path-loss dominated model, we study the resource requirements of consensus with respect to three wireless-appropriate metrics: total transmit energy, elapsed time, and time-bandwidth product. First we characterize the performance of several popular gossip algorithms, showing that they may be order-optimal with respect to transmit energy but are strictly suboptimal with respect to elapsed time and time-bandwidth product. Further, we propose a new consensus scheme, termed hierarchical averaging, and show that it is nearly order-optimal with respect to all three metrics. Finally, we examine the effects of quantization, showing that hierarchical averaging provides a nearly order-optimal tradeoff between resource consumption and quantization error.
Cite
@article{arxiv.1208.3251,
title = {Toward Resource-Optimal Consensus over the Wireless Medium},
author = {Matthew Nokleby and Waheed U. Bajwa and Robert Calderbank and Behnaam Aazhang},
journal= {arXiv preprint arXiv:1208.3251},
year = {2018}
}
Comments
12 pages, 3 figures, to appear in IEEE Journal Selected Topics in Signal Processing, April 2013