Robust model predictive control synthesis for state-delayed systems with randomly occurring input saturation nonlinearities

In this paper, a model predictive control algorithm is presented for linear parameter varying systems with both state delays and randomly occurring input saturation. The input saturation is assumed to be occurred randomly with Bernoulli-distributed white sequences. A constant sate feedback law is de...

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Veröffentlicht in:	Transactions of the Institute of Measurement and Control 2018-01, Vol.40 (1), p.179-190
Hauptverfasser:	Zhang, Langwen, Xie, Wei, Zhong, Zhaozhun, Wang, Jingcheng
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Sprache:	eng
Schlagworte:	Control systems design Control theory Linear matrix inequalities Mathematical models Matrix methods Optimization Predictive control Robust control Saturation State feedback
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creator	Zhang, Langwen Xie, Wei Zhong, Zhaozhun Wang, Jingcheng
description	In this paper, a model predictive control algorithm is presented for linear parameter varying systems with both state delays and randomly occurring input saturation. The input saturation is assumed to be occurred randomly with Bernoulli-distributed white sequences. A constant sate feedback law is designed at each time instant to ensure the robust stability of the closed-loop system with respect to polytopic uncertainties. The optimization of model predictive controller is cast into solving a linear matrix inequalities optimization problem. Then, the results are extended to gain-scheduled approach in which a set of state feedback laws are designed for each vertex of the system model. The state feedback law is scheduled by the time varying model parameters to achieve less conservatism in controller design. Finally, two examples are employed to show the effectiveness of the proposed algorithms.
doi_str_mv	10.1177/0142331216652469
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subjects	Control systems design Control theory Linear matrix inequalities Mathematical models Matrix methods Optimization Predictive control Robust control Saturation State feedback
title	Robust model predictive control synthesis for state-delayed systems with randomly occurring input saturation nonlinearities
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