Jianping Yuan scite author profile

SummaryIn this paper, a low-complexity robust estimation-free decentralized prescribed performance control scheme is proposed and analyzed for nonaffine nonlinear large-scale systems in the presence of unknown nonlinearity and external disturbance. To tackle the high-order dynamics of each tracking error subsystem, a time-varying stable manifold involving the output tracking error and its high-order derivatives is constructed, which is strictly evolved within the envelope of user-specialized prescribed performance. Sequentially, a robust decentralized controller is devised for each manifold, under which the output tracking error and its high-order derivatives are proven to converge asymptotically to a small residual domain with prescribed fast convergence rate. Additionally, no specialized approximation technique, adaptive scheme, and disturbance observer are needed, which alleviates the complexity and difficulty of robust decentralized controller design dramatically. Finally, 3 groups of illustrative examples are used to validate the effectiveness of the proposed low-complexity robust decentralized control scheme for uncertain nonaffine nonlinear large-scale systems.

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Model predictive control for autonomous rendezvous and docking with a tumbling target

Yuan

Zhang

et al. 2017

Aerospace Science and Technology

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Leader‐following consensus of second‐order multi‐agent systems with arbitrarily appointed‐time prescribed performance

Wei

Luo

Zhao

et al. 2018

IET Control Theory & Applications

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Extreme values of relative distances for spacecraft in elliptic displaced orbits

Wang

Mengali

Quarta

et al. 2016

Advances in Space Research

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Jianping Yuan

Study of decision framework of offshore wind power station site selection based on ELECTRE-III under intuitionistic fuzzy environment: A case of China

Robust estimation‐free decentralized prescribed performance control of nonaffine nonlinear large‐scale systems

Model predictive control for autonomous rendezvous and docking with a tumbling target

Leader‐following consensus of second‐order multi‐agent systems with arbitrarily appointed‐time prescribed performance

Extreme values of relative distances for spacecraft in elliptic displaced orbits

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