Almost sure convergence of a randomized algorithm for relative localization in sensor networks
Systems and Control
2013-03-13 v1 Optimization and Control
Abstract
This paper regards the relative localization problem in sensor networks. We study a randomized algorithm, which is based on input-driven consensus dynamics and involves pairwise "gossip" communications and updates. Due to the randomness of the updates, the state of this algorithm ergodically oscillates around a limit value. Exploiting the ergodicity of the dynamics, we show that the time-average of the state almost surely converges to the least-squares solution of the localization problem. Remarkably, the computation of the time-average does not require the sensors to share any common clock. Hence, the proposed algorithm is fully distributed and asynchronous.
Cite
@article{arxiv.1303.2830,
title = {Almost sure convergence of a randomized algorithm for relative localization in sensor networks},
author = {Chiara Ravazzi and Paolo Frasca and Roberto Tempo and Hideaki Ishii},
journal= {arXiv preprint arXiv:1303.2830},
year = {2013}
}
Comments
2 figures; submitted to conference