Static Nonlinear Compensator Design for Bilinear Systems with an Application on a Furnace

In this paper, a theoretical solution for optimizing the parameters of a static nonlienar compensator for first order bilinear systems is proposed. This is compared with the compensator optimized through perturbation using a maximum length ternary signal. It was found that both methods give paramete...

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Bibliographic Details
Main Authors: Kam Chee Chook, Ai Hui Tan, Wee Ong Siew, Wooi Haw Tan
Format: Conference Proceeding
Language:English
Subjects:
Algorithm design and analysis
Bilinear systems
Compensation techniques
Control systems
Design optimization
Feedback control
Furnaces
Multimedia systems
Nonlinear control systems
Nonlinear systems
Optimization methods
Perturbation signals
Sampling methods
System identification
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Summary:In this paper, a theoretical solution for optimizing the parameters of a static nonlienar compensator for first order bilinear systems is proposed. This is compared with the compensator optimized through perturbation using a maximum length ternary signal. It was found that both methods give parameters that are close to one another. However, the theoretical method offerfs the advantages that it is more computationally efficient and less time consuming. The solution is also unaffected by the choice of design points and optimization algorithm used. The compensator design is applied on an electrical tube furnace which is shown to behave as a first order bilinear system.
ISSN:1091-5281
DOI:10.1109/IMTC.2005.1604352