An adaptive model predictive control strategy for a class of discrete-time linear systems with parametric uncertainty

Yingjie Hu; Linfeng Gou; Ding Fan; Herbert Ho Ching Iu; Tyrone Fernando; Xinan Zhang

doi:10.1002/acs.3327

An adaptive model predictive control strategy for a class of discrete-time linear systems with parametric uncertainty

Yingjie Hu, Linfeng Gou, Ding Fan, Herbert Ho Ching Iu, Tyrone Fernando, Xinan Zhang

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5 引用（Scopus）

摘要

In this study, an adaptive model predictive control (MPC) strategy is proposed for a class of discrete-time linear systems with parametric uncertainty. In the presented adaptive MPC, an updating law is firstly designed to update the estimated parameters online. By utilizing the estimated parameters, a standard MPC optimization problem for unconstrained systems is established. Then, to deal with constrained systems, the min–max MPC technique is developed under the set-based approach for the estimated parameters. Furthermore, it is shown theoretically that the recursive feasibility and closed-loop stability can be rigorously proved, respectively. Finally, numerical simulations and comparative analysis are presented to illustrate the superiority of the proposed algorithms in control performance.

源语言	英语
页（从-至）	2389-2405
页数	17
期刊	International Journal of Adaptive Control and Signal Processing
卷	35
期	12
DOI	https://doi.org/10.1002/acs.3327
出版状态	已出版 - 12月 2021

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abstract = "In this study, an adaptive model predictive control (MPC) strategy is proposed for a class of discrete-time linear systems with parametric uncertainty. In the presented adaptive MPC, an updating law is firstly designed to update the estimated parameters online. By utilizing the estimated parameters, a standard MPC optimization problem for unconstrained systems is established. Then, to deal with constrained systems, the min–max MPC technique is developed under the set-based approach for the estimated parameters. Furthermore, it is shown theoretically that the recursive feasibility and closed-loop stability can be rigorously proved, respectively. Finally, numerical simulations and comparative analysis are presented to illustrate the superiority of the proposed algorithms in control performance.",

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author = "Yingjie Hu and Linfeng Gou and Ding Fan and Iu, {Herbert Ho Ching} and Tyrone Fernando and Xinan Zhang",

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AU - Hu, Yingjie

AU - Gou, Linfeng

AU - Fan, Ding

AU - Iu, Herbert Ho Ching

AU - Fernando, Tyrone

AU - Zhang, Xinan

PY - 2021/12

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AB - In this study, an adaptive model predictive control (MPC) strategy is proposed for a class of discrete-time linear systems with parametric uncertainty. In the presented adaptive MPC, an updating law is firstly designed to update the estimated parameters online. By utilizing the estimated parameters, a standard MPC optimization problem for unconstrained systems is established. Then, to deal with constrained systems, the min–max MPC technique is developed under the set-based approach for the estimated parameters. Furthermore, it is shown theoretically that the recursive feasibility and closed-loop stability can be rigorously proved, respectively. Finally, numerical simulations and comparative analysis are presented to illustrate the superiority of the proposed algorithms in control performance.

KW - adaptive MPC

KW - closed-loop stability

KW - constrained and unconstrained systems

KW - parameter estimation

KW - recursive feasibility

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An adaptive model predictive control strategy for a class of discrete-time linear systems with parametric uncertainty

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