Daniel J. Stilwell scite author profile

In previous work [1], empirical evidence indicated that a time-varying network could propagate sufficient information to allow synchronization of the sometimes coupled oscillators, despite an instantaneously disconnected topology. We prove here that if the network of oscillators synchronizes for the static time-average of the topology, then the network will synchronize with the time-varying topology if the time-average is achieved sufficiently fast. Fast switching, fast on the time-scale of the coupled oscillators, overcomes the descychnronizing decoherence suggested by disconnected instantaneous networks. This result agrees in spirit with that of [1] where empirical evidence suggested that a moving averaged graph Laplacian could be used in the master-stability function analysis [52]. A new fast switching stability criterion here-in gives sufficiency of a fast-switching network leading to synchronization. Although this sufficient condition appears to be very conservative, it provides new insights about the requirements for synchronization when the network topology is time-varying. In particular, it can be shown that networks of oscillators can synchronize even if at every point in time the frozen-time network topology is insufficiently connected to achieve synchronization.MCS: 37A25, 37D45, 37N25, 93B05, 94C15, 05C80, 92D30

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Consensus Seeking Over Random Weighted Directed Graphs

Porfiri¹,

Stilwell

2007

IEEE Trans. Automat. Contr.

284

156

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Tracking and formation control of multiple autonomous agents: A two-level consensus approach

Porfiri¹,

2007

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Random talk: Random walk and synchronizability in a moving neighborhood network

Porfiri¹,

Stilwell

Bollt

et al. 2006

Physica D: Nonlinear Phenomena

122

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Synchronization in Random Weighted Directed Networks

Porfiri

Stilwell

Bollt

2008

IEEE Trans. Circuits Syst. I

123

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