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 language | English |
---|---|
Pages (from-to) | 1581-1587 |
Number of pages | 7 |
Journal | Iet control theory and applications |
Volume | 8 |
Issue number | 15 |
DOIs | |
Publication status | Published - 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