Stochastic consensus over noisy networks with Markovian and arbitrary switches |
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| Authors: | Minyi Huang [Author Vitae] Subhrakanti Dey [Author Vitae] |
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| Affiliation: | a School of Mathematics and Statistics, Carleton University, Ottawa, ON, K1S 5B6, Canadab Department of Electrical and Electronic Engineering, University of Melbourne, Victoria 3010, Australia |
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| Abstract: | This paper considers stochastic consensus problems over lossy wireless networks. We first propose a measurement model with a random link gain, additive noise, and Markovian lossy signal reception, which captures uncertain operational conditions of practical networks. For consensus seeking, we apply stochastic approximation and derive a Markovian mode dependent recursive algorithm. Mean square and almost sure (i.e., probability one) convergence analysis is developed via a state space decomposition approach when the coefficient matrix in the algorithm satisfies a zero row and column sum condition. Subsequently, we consider a model with arbitrary random switching and a common stochastic Lyapunov function technique is used to prove convergence. Finally, our method is applied to models with heterogeneous quantizers and packet losses, and convergence results are proved. |
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| Keywords: | Consensus Measurement noises Markovian lossy channels Stochastic approximation Quantized data Packet losses |
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