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切换拓扑下一类模糊多智能体系统的故障检测与二分时变编队控制协同设计

Co-Design of Fault Detection and Bipartite Time-Varying Formation Control for a Class of Fuzzy Multiagent Systems Under Switching Topology

IEEE Transactions on Systems, Man, and Cybernetics: Systems · 2025
被引 1
ABS 3

中文导读

针对非线性多智能体系统,利用区间二型T-S模糊模型和马尔可夫过程描述切换拓扑,提出故障检测与二分时变编队控制的协同设计方法,并通过两连杆机械臂仿真验证有效性。

Abstract

This article focuses on the co-design of fault detection (FD) and time-varying formation control for a nonlinear multiagent system (MAS) over a signed switching digraph. The interval type-2 (IT2) Takagi–Sugeno (T–S) fuzzy model is utilized to represent the nonlinearities and parameter uncertainties, while a Markov process describes a signed digraph indicating possible environmental changes. To further handle the co-design problem over a signed digraph, the equivalence between FD with time-varying formation control and FD with a bipartite time-varying formation protocol is first established. Then, the sufficient conditions of stochastic stability are derived based on a mode-dependent Lyapunov function. It can be proven that the formation error is uniformly ultimately bounded, and the FD performance complies with a dissipative index. Finally, simulations of two-link robotic arm systems are performed to validate the effectiveness and feasibility of the proposed approach.

多智能体系统故障检测编队控制模糊控制切换拓扑