A linear quadratic structure based predictive functional control design for industrial processes against partial actuator failures

An improved predictive functional control (PFC) scheme is proposed for linear processes to compensate for partial actuator failures. First, a new state space model based on the process state and output error variables is derived to provide more information of the system. The PFC is then designed thr...

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Bibliographic Details
Published in:Chemometrics and intelligent laboratory systems 2015-08, Vol.146, p.263-269
Main Authors: Tao, Jili, Yu, Zaihe, Zhu, Yong, Ma, Longhua
Format: Article
Language:English
Subjects:
Injection molding process
Linear quadratic control
Partial actuator failures
Predictive functional control
State space model
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Summary:An improved predictive functional control (PFC) scheme is proposed for linear processes to compensate for partial actuator failures. First, a new state space model based on the process state and output error variables is derived to provide more information of the system. The PFC is then designed through a linear quadratic form that makes the controller optimal. Thus, the control performance can be improved under partial actuator faults and unknown disturbances. Finally, an injection molding process is adopted to illustrate the feasibility and effectiveness of the proposed scheme. Simulation results show that satisfactory control performance can be obtained by comparing with traditional PFC. •A linear quadratic structure based PFC scheme for batch processes with partial actuator faults is proposed.•The control is applied to injection velocity control.•Improved control performance is obtained with unknown disturbances and actuator faults.
ISSN:0169-7439
1873-3239
DOI:10.1016/j.chemolab.2015.05.026