|Study on the Sliding Mode Fault Tolerant Predictive Control Based on Multi Agent Particle Swarm Optimization
Pu Yang*, Ruicheng Guo, Xu Pan, and Tao Li
International Journal of Control, Automation, and Systems, vol. 15, no. 5, pp.2034-2042, 2017
Abstract : "For a class of uncertain discrete-time systems with time varying delay, the problem of robust faulttolerant
control for such systems is studied by combining the design of sliding mode control (SMC) and model
predictive control (MPC). A sliding mode fault tolerant predictive control based on multi agent particle swarm
optimization (PSO) is presented, and the design, analysis and proof of the scheme are given in detail. Firstly,
the sliding mode prediction model of the system is designed by assigning poles of the output error of the system.
The model has time varying characteristics, and it can improve the motion quality of the system while ensuring
the sliding mode is stable. Secondly, a new discrete reference trajectory considering time-delay systems subjected
simultaneously to parameter perturbations and disturbances is proposed, which not only can ensure that the state
of the system has good robustness and fast convergence in the process of approaching sliding mode surface, but
also can inhibit chattering phenomenon. Thirdly, the multi agent PSO improves the receding-horizon optimization,
which can quickly and accurately solve the control laws satisfying the input constraints, and can effectively avoid
falling into local extrema problem of the traditional PSO. Finally, the theoretical proof of robust stability of the
proposed control scheme is given. Experimental results of quad-rotor helicopter semi physical simulation platform
show that the state of uncertain discrete-time systems with time varying delay is stable under the action of the
proposed control scheme in this paper. The advantages of fast response, less overshoot and small control chattering
prove the feasibility and effectiveness of the proposed control scheme."
"PSO, quad-rotor helicopter, sliding mode fault tolerant predictive control, time varying delay, uncertain discrete-time systems."
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