Analytical design of an industrial two-term controller for optimal regulatory control of open-loop unstable processes under operational constraints |
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Affiliation: | School of Chemical Engineering, Yeungnam University, Gyeongsan 712-749, South Korea |
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Abstract: | This paper proposes a novel optimization-based approach for the design of an industrial two-term proportional-integral (PI) controller for the optimal regulatory control of unstable processes subjected to three common operational constraints related to the process variable, manipulated variable and its rate of change. To derive analytical design relations, the constrained optimal control problem in the time domain was transformed into an unconstrained optimization problem in a new parameter space via an effective parameterization. The resulting optimal PI controller has been verified to yield optimal performance and stability of an open-loop unstable first-order process under operational constraints. The proposed analytical design method explicitly takes into account the operational constraints in the controller design stage and also provides useful insights into the optimal controller design. Practical procedures for designing optimal PI parameters and a feasible constraint set exclusive of complex optimization steps are also proposed. The proposed controller was compared with several other PI controllers to illustrate its performance. The robustness of the proposed controller against plant-model mismatch has also been investigated. |
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Keywords: | Optimal regulatory control Open-loop unstable process Industrial two-term controller Proportional-Integral (PI) controller design Constraint handling control Optimization-based approach |
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