adaptive neural network method for consensus tracking of high-order mimo nonlinear multi-agent systems
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abstract
this paper is concerned with the consensus tracking problem of high order mimo nonlinear multi-agent systems. the agents must follow a leader node in presence of unknown dynamics and uncertain external disturbances. the communication network topology of agents is assumed to be a fixed undirected graph. a distributed adaptive control method is proposed to solve the consensus problem utilizing relative information of neighbors of each agent and characteristics of the communication topology. a radial basis function neural network is used to represent the controller’s structure. the proposed method includes a robust term with adaptive gain to counter the approximation error of the designed neural network as well as the effect of external disturbances. the stability of the overall system is guaranteed through lyapunov stability analysis. simulations are performed for two examples: a benchmark nonlinear systems and multiple of autonomous surface vehicles (asvs). the simulation results verify the merits of the proposed method against uncertainty and disturbances.
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Journal title:
amirkabir international journal of modeling, identification, simulation & controlPublisher: amirkabir university of technology
ISSN 2008-6067
volume 46
issue 2 2014
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