Optimized adaptive event‐triggered tracking control for multi‐agent systems with full‐state constraints

In this article, the event‐triggered optimized adaptive tracking control problem is investigated for a class of multi‐agent systems subject to full‐state constraints. To address the full‐state constraints problem, a nonlinear mapping technique is applied, which can release the feasibility conditions...

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Published inInternational journal of robust and nonlinear control Vol. 32; no. 18; pp. 10101 - 10124
Main Authors Yang, Xiaoyu, Pan, Yingnan, Sun, Jize, Tan, Lihua
Format Journal Article
LanguageEnglish
Published Bognor Regis Wiley Subscription Services, Inc 01.12.2022
Subjects
Adaptive control
Algorithms
event‐triggered control
full‐state constraints
Machine learning
multi‐agent systems
Neural networks
reinforcement learning algorithm
Tracking control
Online AccessGet full text
ISSN1049-8923
1099-1239
DOI10.1002/rnc.6378

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Abstract In this article, the event‐triggered optimized adaptive tracking control problem is investigated for a class of multi‐agent systems subject to full‐state constraints. To address the full‐state constraints problem, a nonlinear mapping technique is applied, which can release the feasibility conditions for virtual controllers. Based on the mean‐value theorem, the nonaffine nonlinear terms generated by transformed system are separated, which overcomes the obstacle of solving optimized solution. The neural network based reinforcement learning (RL) algorithm with the identifier‐critic‐actor architecture is introduced to obtain the optimal solution of systems with unknown dynamics. It is worth noting that the RL algorithm in this article is simplified, which can reduce the computational burden. To reducing the communication burden, an event‐triggered mechanism with time‐varying threshold related to the optimized control signal is developed. By applying the Lyapunov stability method, it is proved that the desired optimized tracking performance and the stability of the closed‐loop systems can be guaranteed. Finally, a simulation example demonstrates that the proposed control strategy is effective.
AbstractList In this article, the event‐triggered optimized adaptive tracking control problem is investigated for a class of multi‐agent systems subject to full‐state constraints. To address the full‐state constraints problem, a nonlinear mapping technique is applied, which can release the feasibility conditions for virtual controllers. Based on the mean‐value theorem, the nonaffine nonlinear terms generated by transformed system are separated, which overcomes the obstacle of solving optimized solution. The neural network based reinforcement learning (RL) algorithm with the identifier‐critic‐actor architecture is introduced to obtain the optimal solution of systems with unknown dynamics. It is worth noting that the RL algorithm in this article is simplified, which can reduce the computational burden. To reducing the communication burden, an event‐triggered mechanism with time‐varying threshold related to the optimized control signal is developed. By applying the Lyapunov stability method, it is proved that the desired optimized tracking performance and the stability of the closed‐loop systems can be guaranteed. Finally, a simulation example demonstrates that the proposed control strategy is effective.
Author Sun, Jize
Pan, Yingnan
Tan, Lihua
Yang, Xiaoyu
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Snippet In this article, the event‐triggered optimized adaptive tracking control problem is investigated for a class of multi‐agent systems subject to full‐state...
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SubjectTerms Adaptive control
Algorithms
event‐triggered control
full‐state constraints
Machine learning
multi‐agent systems
Neural networks
reinforcement learning algorithm
Tracking control
Title Optimized adaptive event‐triggered tracking control for multi‐agent systems with full‐state constraints
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Frnc.6378
https://www.proquest.com/docview/2734499458
Volume 32
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