Network Scheduling and Control Co-Design for Multi-Loop MPC

Kun Liu; Aoyun Ma; Yuanqing Xia; Zhongqi Sun; Karl Henrik Johansson

doi:10.1109/TAC.2019.2910724

Network Scheduling and Control Co-Design for Multi-Loop MPC

Kun Liu
, Aoyun Ma
, Yuanqing Xia^*
, Zhongqi Sun
, Karl Henrik Johansson

^*此作品的通讯作者

自动化学院

Beijing Institute of Technology
KTH Royal Institute of Technology

科研成果: 期刊稿件 › 文章 › 同行评审

22 引用（Scopus）

摘要

This paper is concerned with model predictive control (MPC) for multi-loop networked control systems over shared bandwidth-limited communication networks. The plants are described by linear discrete-time systems with additive disturbances and input constraints. At each time instant, only a limited number of loops can communicate over the networks, and the scheduling sequence is determined by a network manager. Algorithms are proposed for co-designing the MPC and the scheduling protocol to stabilize all loops with conflict-free transmissions. We give conditions to ensure recursive feasibility of the optimization problems and the stability of all loops. Finally, two numerical examples show that the algorithms work well.

源语言	英语
文章编号	8688507
页（从-至）	5238-5245
页数	8
期刊	IEEE Transactions on Automatic Control
卷	64
期	12
DOI	https://doi.org/10.1109/TAC.2019.2910724
出版状态	已出版 - 12月 2019

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title = "Network Scheduling and Control Co-Design for Multi-Loop MPC",

abstract = "This paper is concerned with model predictive control (MPC) for multi-loop networked control systems over shared bandwidth-limited communication networks. The plants are described by linear discrete-time systems with additive disturbances and input constraints. At each time instant, only a limited number of loops can communicate over the networks, and the scheduling sequence is determined by a network manager. Algorithms are proposed for co-designing the MPC and the scheduling protocol to stabilize all loops with conflict-free transmissions. We give conditions to ensure recursive feasibility of the optimization problems and the stability of all loops. Finally, two numerical examples show that the algorithms work well.",

keywords = "Bandwidth-limited communication networks, input constraints, model predictive control, multi-loop networked control systems, scheduling sequence",

author = "Kun Liu and Aoyun Ma and Yuanqing Xia and Zhongqi Sun and Johansson, \{Karl Henrik\}",

note = "Publisher Copyright: {\textcopyright} 1963-2012 IEEE.",

year = "2019",

month = dec,

doi = "10.1109/TAC.2019.2910724",

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AU - Liu, Kun

AU - Ma, Aoyun

AU - Xia, Yuanqing

AU - Sun, Zhongqi

AU - Johansson, Karl Henrik

PY - 2019/12

Y1 - 2019/12

N2 - This paper is concerned with model predictive control (MPC) for multi-loop networked control systems over shared bandwidth-limited communication networks. The plants are described by linear discrete-time systems with additive disturbances and input constraints. At each time instant, only a limited number of loops can communicate over the networks, and the scheduling sequence is determined by a network manager. Algorithms are proposed for co-designing the MPC and the scheduling protocol to stabilize all loops with conflict-free transmissions. We give conditions to ensure recursive feasibility of the optimization problems and the stability of all loops. Finally, two numerical examples show that the algorithms work well.

AB - This paper is concerned with model predictive control (MPC) for multi-loop networked control systems over shared bandwidth-limited communication networks. The plants are described by linear discrete-time systems with additive disturbances and input constraints. At each time instant, only a limited number of loops can communicate over the networks, and the scheduling sequence is determined by a network manager. Algorithms are proposed for co-designing the MPC and the scheduling protocol to stabilize all loops with conflict-free transmissions. We give conditions to ensure recursive feasibility of the optimization problems and the stability of all loops. Finally, two numerical examples show that the algorithms work well.

KW - Bandwidth-limited communication networks

KW - input constraints

KW - model predictive control

KW - multi-loop networked control systems

KW - scheduling sequence

UR - https://www.scopus.com/pages/publications/85068423472

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EP - 5245

JO - IEEE Transactions on Automatic Control

JF - IEEE Transactions on Automatic Control

IS - 12

M1 - 8688507

ER -

Network Scheduling and Control Co-Design for Multi-Loop MPC

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