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Issue
Korean Journal of Chemical Engineering,
Vol.31, No.8, 1321-1329, 2014
Smith predictor based fractional-order PI control for time-delay processes
Vu TNL, Lee M
A new fractional-order proportional-integral controller embedded in a Smith predictor is systematically proposed based on fractional calculus and Bode’s ideal transfer function. The analytical tuning rules are first derived by using the frequency domain for a first-order-plus-dead-time process model, and then are easily applied to various dynamics, including both the integer-order and fractional-order dynamic processes. The proposed method consistently affords superior closed-loop performance for both servo and regulatory problems, since the design scheme is simple, straightforward, and can be easily implemented in the process industry. A variety of examples are employed to illustrate the simplicity, flexibility, and effectiveness of the proposed SP-FOPI controller in comparison with other reported controllers in terms of minimum the integral absolute error with a constraint on the maximum sensitivity value.
Keywords: Smith Predictor; Fractional-order Proportional-integral (FOPI) Controller; Bode’s Ideal Transfer Function; Fractional Calculus
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