Multiple model unfalsified adaptive generalized predictive control based on the quadratic inverse optimal control concept

Multiple model unfalsified adaptive generalized predictive control based on the quadratic inverse optimal control concept

Unfalsified adaptive control (UAC) is a class of switching control systems which deals with the control of uncertain systems. The UAC includes a bank of controllers, a supervisor, and a system in which the supervisor selects a stabilizing controller based on the system input and output data. Feasibi...

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Bibliographic Details
Published in:Optimal control applications & methods Vol. 42; no. 3; pp. 769 - 785
Main Authors: Sadeghi Forouz, Bahman, Nouri Manzar, Mojtaba, Khaki‐Sedigh, Ali
Format: Journal Article
Language:English
Published: Glasgow Wiley Subscription Services, Inc 01-05-2021
Subjects:
Actuators
Adaptive control
constrained predictive control
Constraints
Control methods
Control stability
Controllers
inverse optimal control
multi‐model unfalsified adaptive control
Optimal control
Predictive control
Signal generation
Stability analysis
switching control
Systems analysis
Transient performance
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Summary:Unfalsified adaptive control (UAC) is a class of switching control systems which deals with the control of uncertain systems. The UAC includes a bank of controllers, a supervisor, and a system in which the supervisor selects a stabilizing controller based on the system input and output data. Feasibility is the only assumption required in the UAC strategy, which guarantees that there is at least one stabilizing controller in the controller bank. UAC uses the cost detectability definition to prove closed‐loop stability. The combination of UAC and multiple model supervisory adaptive control (MMASC) results in the proposed unfalsified multi‐model control methodology that enjoys appropriate transient performance and stability proof with required minimum assumptions. In practical controller implementations, the effect of actuator constraints on the control signals is crucial. Despite the significance of constrained systems analysis in real applications, the input constraints in the structures of unfalsified control are not generally considered. Also, the stability analysis of constrained unfalsified control is key to its practical applications. In this article, the input constrained systems are considered using the constrained generalized predictive control (GPC) as the main controllers. Subsequently, to handle virtual signal generation for the GPCs in the UAC context, the inverse optimal control strategy is engaged and formulated to solve the signal generation problem. Simulation results are employed to show the effectiveness of the proposed methodology.
ISSN:0143-2087
1099-1514
DOI:10.1002/oca.2700