Setpoint control of networked systems via static output feedback integral controller

Zhong-Hua Pang*, Donghua Zhou, G-P Liu

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

This study studies the problem of setpoint output tracking for networked control systems with network-induced delay, packet disorder and packet dropout. Based on the input-output difference equation model, a novel networked predictive control (NPC) method via static output feedback integral controller (SOFIC) is proposed to actively compensate for the round-trip time (RTT) delay resulting from the aforementioned communication constraints. It is analysed that the resulting NPC system can achieve a similar tracking performance as that of the corresponding local control system. Based on the performance analysis, a necessary and sufficient condition for the stability of the closed-loop NPC system is obtained, which is independent of the RTT delay. Both numerical simulations and practical experiments on an internet-based servo motor system illustrate the effectiveness of the proposed method.

Original languageEnglish
Pages (from-to)1581-1587
Number of pages7
JournalIet control theory and applications
Volume8
Issue number15
DOIs
Publication statusPublished - 16 Oct 2014

Keywords

  • networked control systems
  • feedback
  • closed loop systems
  • difference equations
  • predictive control
  • delays
  • stability
  • setpoint control
  • static output feedback integral controller
  • setpoint output tracking problem
  • network-induced delay
  • packet disorder
  • packet dropout
  • input-output difference equation model
  • networked predictive control method
  • NPC method
  • round-trip time delay
  • RTT delay
  • communication constraints
  • local control system
  • necessary and sufficient condition
  • closed-loop NPC system stability
  • Internet-based servo motor system
  • PREDICTIVE CONTROL-SYSTEMS
  • STABILITY ANALYSIS
  • TRACKING CONTROL
  • TIME-DELAY
  • DESIGN
  • STABILIZATION
  • COMPENSATION
  • IMPLEMENTATION
  • MANIPULATOR

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