Electronic implementation of a dynamical network with nearly identical hybrid nodes via unstable dissipative systems
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This work addresses a circuit architecture for a dynamical network composed of a type of chaotic hybrid oscillator based on Unstable Dissipative Systems (UDS). Implementing that system reveals the possibility of selecting a network topology with its link attributes. Moreover, from the experimental side, we study the practical synchronous collective behaviour phenomena. Additionally, based on the theory of dynamical networks, a mathematical model of the circuit is described, taking into account the natural tolerance of the electronic components. The network is analyzed both numerically and experimentally according to the parameters mismatch between nodes. © 2019 Elsevier Ltd
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Chaos; Dynamical networks; Electronic implementation; Nearly identical nodes; Unstable dissipative hybrid systems Chaos theory; Energy dissipation; Hybrid systems; Circuit architectures; Collective behaviour; Dissipative systems; Dynamical networks; Electronic component; Electronic implementations; Nearly identical nodes; Network topology; Oscillators (electronic)
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