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Leader–Follower Formation Learning Control of Discrete-Time Nonlinear Multiagent Systems

Haotian Shi, Min Wang, Cong Wang

2021IEEE Transactions on Cybernetics59 citationsDOI

Abstract

This article investigates the leader–follower formation learning control (FLC) problem for discrete-time strict-feedback multiagent systems (MASs). The objective is to acquire the experience knowledge from the stable leader–follower adaptive formation control process and improve the control performance by reusing the experiential knowledge. First, a two-layer control scheme is proposed to solve the leader–follower formation control problem. In the first layer, by combining adaptive distributed observers and constructed <inline-formula xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink"> <tex-math notation="LaTeX">$i_{n}$ </tex-math></inline-formula> -step predictors, the leader’s future state is predicted by the followers in a distributed manner. In the second layer, the adaptive neural network (NN) controllers are constructed for the followers to ensure that all the followers track the predicted output of the leader. In the stable formation control process, the NN weights are verified to exponentially converge to their optimal values by developing an extended stability corollary of linear time-varying (LTV) system. Second, by constructing some specific “learning rules,” the NN weights with convergent sequences are synthetically acquired and stored in the followers as experience knowledge. Then, the stored knowledge is reused to construct the FLC. The proposed FLC method not only solves the leader–follower formation problem but also improves the transient control performance. Finally, the validity of the presented FLC scheme is illustrated by simulations.

Topics & Concepts

Control theory (sociology)Computer scienceProcess (computing)Control (management)Stability (learning theory)Scheme (mathematics)Nonlinear systemMulti-agent systemArtificial neural networkAdaptive controlConstruct (python library)Artificial intelligenceMathematicsMachine learningQuantum mechanicsPhysicsMathematical analysisProgramming languageOperating systemDistributed Control Multi-Agent SystemsNeural Networks Stability and SynchronizationAdaptive Dynamic Programming Control
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