This paper presents a distributed integrated fault diagnosis and accommodation scheme for leader- following formation control of a class of nonlinear uncertain second-order multi-agent systems. The fault model under consideration includes both process and actuator faults, which may evolve abruptly or incipiently. The time-varying leader communicates with a small subset of follower agents, and each follower agent communicates to its directly connected neighbors through a bidirectional network with possibly asymmetric weights. A local fault diagnosis and accommodation component is designed for each agent in the distributed system, which consists of a fault detection and isolation module and a recongurable controller module comprised of a baseline controller and two adaptive fault- tolerant controllers, activated after fault detection and after fault isolation, respectively. By using appropriately designed Lyapunov functions, the closed-loop stability and asymptotic convergence properties of the leader-follower formation are rigorously established under dierent modes of the fault-tolerant control system.

Distributed Adaptive Fault-Tolerant Leader-Following Formation Control of Nonlinear Uncertain Second-Order Multi-Agent Systems

T. Parisini
2018-01-01

Abstract

This paper presents a distributed integrated fault diagnosis and accommodation scheme for leader- following formation control of a class of nonlinear uncertain second-order multi-agent systems. The fault model under consideration includes both process and actuator faults, which may evolve abruptly or incipiently. The time-varying leader communicates with a small subset of follower agents, and each follower agent communicates to its directly connected neighbors through a bidirectional network with possibly asymmetric weights. A local fault diagnosis and accommodation component is designed for each agent in the distributed system, which consists of a fault detection and isolation module and a recongurable controller module comprised of a baseline controller and two adaptive fault- tolerant controllers, activated after fault detection and after fault isolation, respectively. By using appropriately designed Lyapunov functions, the closed-loop stability and asymptotic convergence properties of the leader-follower formation are rigorously established under dierent modes of the fault-tolerant control system.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11368/2925334
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