A comparative experimental evaluation of various Smith predictor approaches for a thermal process with large dead time

Carlos Mejía; Estefanía Salazar; Oscar Camacho

doi:10.1016/j.aej.2022.03.047

A comparative experimental evaluation of various Smith predictor approaches for a thermal process with large dead time

Carlos Mejía
, Estefanía Salazar
, Oscar Camacho^*

^*Corresponding author for this work

Ingeniería Electrónica y Automatización

Escuela Politecnica Nacional

Research output: Contribution to journal › Article › peer-review

47 Scopus citations

Abstract

This paper emphasizes a comparative experimental evaluation of three Smith predictor configurations. The three control schemes are tuned using different optimization algorithms; then, they are applied to an Arduino Temperature Control Lab used to test and evaluate their performance. The three deadtime compensators are compared using radial graphs. They were assessed under different conditions using various performance indices: the Integral Square Error, the Total Variations of Control Efforts, the Maximum Overshoot, and the Settling Time for tracking and disturbances changes. The Mejia et al. approach presented a better overall performance than the other two. Finally, the results showed that Smith Predictor is suitable for thermal processes with elevated dead time.

Original language	English
Pages (from-to)	9377-9394
Number of pages	18
Journal	Alexandria Engineering Journal
Volume	61
Issue number	12
DOIs	https://doi.org/10.1016/j.aej.2022.03.047
State	Published - Dec 2022

Keywords

Integral square error
Practical application
Smith predictor
Time-delay system
Two degrees of freedom scheme

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10.1016/j.aej.2022.03.047

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title = "A comparative experimental evaluation of various Smith predictor approaches for a thermal process with large dead time",

abstract = "This paper emphasizes a comparative experimental evaluation of three Smith predictor configurations. The three control schemes are tuned using different optimization algorithms; then, they are applied to an Arduino Temperature Control Lab used to test and evaluate their performance. The three deadtime compensators are compared using radial graphs. They were assessed under different conditions using various performance indices: the Integral Square Error, the Total Variations of Control Efforts, the Maximum Overshoot, and the Settling Time for tracking and disturbances changes. The Mejia et al. approach presented a better overall performance than the other two. Finally, the results showed that Smith Predictor is suitable for thermal processes with elevated dead time.",

keywords = "Integral square error, Practical application, Smith predictor, Time-delay system, Two degrees of freedom scheme",

author = "Carlos Mej{\'i}a and Estefan{\'i}a Salazar and Oscar Camacho",

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AU - Mejía, Carlos

AU - Salazar, Estefanía

AU - Camacho, Oscar

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N2 - This paper emphasizes a comparative experimental evaluation of three Smith predictor configurations. The three control schemes are tuned using different optimization algorithms; then, they are applied to an Arduino Temperature Control Lab used to test and evaluate their performance. The three deadtime compensators are compared using radial graphs. They were assessed under different conditions using various performance indices: the Integral Square Error, the Total Variations of Control Efforts, the Maximum Overshoot, and the Settling Time for tracking and disturbances changes. The Mejia et al. approach presented a better overall performance than the other two. Finally, the results showed that Smith Predictor is suitable for thermal processes with elevated dead time.

AB - This paper emphasizes a comparative experimental evaluation of three Smith predictor configurations. The three control schemes are tuned using different optimization algorithms; then, they are applied to an Arduino Temperature Control Lab used to test and evaluate their performance. The three deadtime compensators are compared using radial graphs. They were assessed under different conditions using various performance indices: the Integral Square Error, the Total Variations of Control Efforts, the Maximum Overshoot, and the Settling Time for tracking and disturbances changes. The Mejia et al. approach presented a better overall performance than the other two. Finally, the results showed that Smith Predictor is suitable for thermal processes with elevated dead time.

KW - Integral square error

KW - Practical application

KW - Smith predictor

KW - Time-delay system

KW - Two degrees of freedom scheme

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VL - 61

SP - 9377

EP - 9394

JO - Alexandria Engineering Journal

JF - Alexandria Engineering Journal

IS - 12

ER -

A comparative experimental evaluation of various Smith predictor approaches for a thermal process with large dead time

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Keywords

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