Distributed MPC for linear discrete-time systems with disturbances and coupled states

Aoyun Ma; Kun Liu; Qirui Zhang; Yuanqing Xia

doi:10.1016/j.sysconle.2019.104578

Distributed MPC for linear discrete-time systems with disturbances and coupled states

Aoyun Ma, Kun Liu^*, Qirui Zhang, Yuanqing Xia

^*此作品的通讯作者

自动化学院

Beijing Institute of Technology

科研成果: 期刊稿件 › 文章 › 同行评审

19 引用（Scopus）

摘要

This paper presents a robust non-iterative distributed model predictive control algorithm for spatially interconnected systems. The system consists of multiple linear discrete-time subsystems, which are weakly coupled in their states. Each subsystem is subject to state and input constraints as well as disturbances. The predictive model of each subsystem updates its state, depending on its own state and the neighboring states. The disturbance and the model error are handled via robustness constraints. The recursive feasibility of the optimization problems and the stability of the closed-loop systems are established. Finally, the effectiveness and advantages of the proposed algorithm are verified via simulations.

源语言	英语
文章编号	104578
期刊	Systems and Control Letters
卷	135
DOI	https://doi.org/10.1016/j.sysconle.2019.104578
出版状态	已出版 - 1月 2020

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Ma, A., Liu, K., Zhang, Q., & Xia, Y. (2020). Distributed MPC for linear discrete-time systems with disturbances and coupled states. Systems and Control Letters, 135, 文章 104578. https://doi.org/10.1016/j.sysconle.2019.104578

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title = "Distributed MPC for linear discrete-time systems with disturbances and coupled states",

abstract = "This paper presents a robust non-iterative distributed model predictive control algorithm for spatially interconnected systems. The system consists of multiple linear discrete-time subsystems, which are weakly coupled in their states. Each subsystem is subject to state and input constraints as well as disturbances. The predictive model of each subsystem updates its state, depending on its own state and the neighboring states. The disturbance and the model error are handled via robustness constraints. The recursive feasibility of the optimization problems and the stability of the closed-loop systems are established. Finally, the effectiveness and advantages of the proposed algorithm are verified via simulations.",

keywords = "Coupled states, Distributed model predictive control, Spatially interconnected systems, State and input constraints",

author = "Aoyun Ma and Kun Liu and Qirui Zhang and Yuanqing Xia",

note = "Publisher Copyright: {\textcopyright} 2019 Elsevier B.V.",

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AU - Ma, Aoyun

AU - Liu, Kun

AU - Zhang, Qirui

AU - Xia, Yuanqing

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Y1 - 2020/1

N2 - This paper presents a robust non-iterative distributed model predictive control algorithm for spatially interconnected systems. The system consists of multiple linear discrete-time subsystems, which are weakly coupled in their states. Each subsystem is subject to state and input constraints as well as disturbances. The predictive model of each subsystem updates its state, depending on its own state and the neighboring states. The disturbance and the model error are handled via robustness constraints. The recursive feasibility of the optimization problems and the stability of the closed-loop systems are established. Finally, the effectiveness and advantages of the proposed algorithm are verified via simulations.

AB - This paper presents a robust non-iterative distributed model predictive control algorithm for spatially interconnected systems. The system consists of multiple linear discrete-time subsystems, which are weakly coupled in their states. Each subsystem is subject to state and input constraints as well as disturbances. The predictive model of each subsystem updates its state, depending on its own state and the neighboring states. The disturbance and the model error are handled via robustness constraints. The recursive feasibility of the optimization problems and the stability of the closed-loop systems are established. Finally, the effectiveness and advantages of the proposed algorithm are verified via simulations.

KW - Coupled states

KW - Distributed model predictive control

KW - Spatially interconnected systems

KW - State and input constraints

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SN - 0167-6911

VL - 135

JO - Systems and Control Letters

JF - Systems and Control Letters

M1 - 104578

ER -

Distributed MPC for linear discrete-time systems with disturbances and coupled states

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