Mixed time/event-triggered distributed predictive control over wired-wireless networks

Communicating via mixed wired-wireless connections is the development trend for large-scale distributed control systems. In this communication environment, due to the limited wireless resources, the communication patterns of subsystems have changed fundamentally, and the design of time-triggered and...

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Published inJournal of the Franklin Institute Vol. 354; no. 9; pp. 3724 - 3743
Main Authors Zou, Yuanyuan, Su, Xu, Niu, Yugang
Format Journal Article
LanguageEnglish
Published Elmsford Elsevier Ltd 01.06.2017
Elsevier Science Ltd
Subjects
Algorithms
Control stability
Control systems
Linear systems
Predictive control
Wireless communications
Wireless networks
Online AccessGet full text
ISSN0016-0032
1879-2693
0016-0032
DOI10.1016/j.jfranklin.2016.08.002

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Abstract Communicating via mixed wired-wireless connections is the development trend for large-scale distributed control systems. In this communication environment, due to the limited wireless resources, the communication patterns of subsystems have changed fundamentally, and the design of time-triggered and event-triggered distributed controllers should be taken into account simultaneously. The objective of this paper is to investigate mixed time/event-triggered dual-mode distributed predictive control (DPC) for constrained large-scale linear systems subject to bounded disturbances. Considering the effects of two different communication modes and introducing a prediction error between the current actual state and predicted state, the event-triggering condition is derived for each event-triggered subsystem. Based on this, a mixed time/event-triggered dual-mode DPC algorithm is proposed in view of the asynchronous coordination among subsystems. Furthermore, the sufficient conditions to ensure the recursive feasibility and closed-loop stability of mixed triggered DPC are developed. Finally, a multi-vehicle control system is provided to verify the effectiveness of the proposed approach.
AbstractList Communicating via mixed wired-wireless connections is the development trend for large-scale distributed control systems. In this communication environment, due to the limited wireless resources, the communication patterns of subsystems have changed fundamentally, and the design of time-triggered and event-triggered distributed controllers should be taken into account simultaneously. The objective of this paper is to investigate mixed time/event-triggered dual-mode distributed predictive control (DPC) for constrained large-scale linear systems subject to bounded disturbances. Considering the effects of two different communication modes and introducing a prediction error between the current actual state and predicted state, the event-triggering condition is derived for each event-triggered subsystem. Based on this, a mixed time/event-triggered dual-mode DPC algorithm is proposed in view of the asynchronous coordination among subsystems. Furthermore, the sufficient conditions to ensure the recursive feasibility and closed-loop stability of mixed triggered DPC are developed. Finally, a multi-vehicle control system is provided to verify the effectiveness of the proposed approach.
Author Su, Xu
Niu, Yugang
Zou, Yuanyuan
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SubjectTerms Algorithms
Control stability
Control systems
Linear systems
Predictive control
Wireless communications
Wireless networks
Title Mixed time/event-triggered distributed predictive control over wired-wireless networks
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