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Simple Tuning Rules for Dead-Time Compensation of Stable, Integrative, and Unstable First-Order Dead-Time Processes

2013; American Chemical Society; Volume: 52; Issue: 33 Linguagem: Inglês

10.1021/ie401395x

1520-5045

Bismark C. Torrico, Marcos Uchoa Cavalcante, Arthur P. S. Braga, Julio E. Normey‐Rico, Alberto A. M. Albuquerque,

Stability and Control of Uncertain Systems

This work proposes a new and simple design for the filtered Smith predictor (FSP), which belongs to a class of dead-time compensators (DTCs) and allows the handling of stable, unstable, and integrative processes. For this purpose, first, to use lower-order controller and filters, it is shown that it is not necessary to use the integral action in the primary controller, which is used to tune the set-point response; then, the FSP filters are designed to obtain the desired disturbance rejection, robustness, and noise attenuation. Using this procedure, it is possible to obtain a better compromise between performance and complexity than other solutions in the literature. Two simulation case studies are used to compare the obtained solution with some recently published results. A practical experiment involving a neonatal intensive care unit is also presented to illustrate the usefulness of the proposed DTC.