Ergodic Randomized Algorithms and Dynamics Over Networks

Chiara Ravazzi; Paolo Frasca; Roberto Tempo; Hideaki Ishii

doi:10.1109/TCNS.2014.2367571

Ergodic Randomized Algorithms and Dynamics Over Networks

Chiara Ravazzi, Paolo Frasca, Roberto Tempo, Hideaki Ishii

Research output: Contribution to journal › Article › Academic › peer-review

97 Citations (Scopus)

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Abstract

Algorithms and dynamics over networks often involve randomization and randomization can induce oscillating dynamics that fail to converge in a deterministic sense. Under assumptions of independence across time and linearity of the updates, we show that the oscillations are ergodic if the expected dynamics is stable. We apply this result to three problems of network systems, namely, the estimation from relative measurements, the PageRank computation, and the dynamics of opinions in social networks. In these applications, the randomized dynamics is the asynchronous counterpart of a deterministic (stable) synchronous one. By ergodicity, the deterministic limit can be recovered via a time-averaging operation, which can be performed locally by each node of the network.

Original language	English
Pages (from-to)	78-87
Number of pages	10
Journal	IEEE transactions on control of network systems
Volume	2
Issue number	1
DOIs	https://doi.org/10.1109/TCNS.2014.2367571
Publication status	Published - Mar 2015

Keywords

EC Grant Agreement nr.: FP7/2007-2013
Randomized algorithms
opinion dynamics
Networks
PageRank problem

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10.1109/TCNS.2014.2367571

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abstract = "Algorithms and dynamics over networks often involve randomization and randomization can induce oscillating dynamics that fail to converge in a deterministic sense. Under assumptions of independence across time and linearity of the updates, we show that the oscillations are ergodic if the expected dynamics is stable. We apply this result to three problems of network systems, namely, the estimation from relative measurements, the PageRank computation, and the dynamics of opinions in social networks. In these applications, the randomized dynamics is the asynchronous counterpart of a deterministic (stable) synchronous one. By ergodicity, the deterministic limit can be recovered via a time-averaging operation, which can be performed locally by each node of the network.",

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AB - Algorithms and dynamics over networks often involve randomization and randomization can induce oscillating dynamics that fail to converge in a deterministic sense. Under assumptions of independence across time and linearity of the updates, we show that the oscillations are ergodic if the expected dynamics is stable. We apply this result to three problems of network systems, namely, the estimation from relative measurements, the PageRank computation, and the dynamics of opinions in social networks. In these applications, the randomized dynamics is the asynchronous counterpart of a deterministic (stable) synchronous one. By ergodicity, the deterministic limit can be recovered via a time-averaging operation, which can be performed locally by each node of the network.

KW - EC Grant Agreement nr.: FP7/2007-2013

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KW - PageRank problem

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JO - IEEE transactions on control of network systems

JF - IEEE transactions on control of network systems

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Ergodic Randomized Algorithms and Dynamics Over Networks

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Keywords

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