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Titre: Design and robust performance analysis of Low-Order approximation of fractional PID controller based on an IABC algorithm for an automatic voltage regulator system
Auteur(s): Idir, Abdelhakim
Canale, Laurent
Bensafia, Yassine
Khettab, Khatir
Mots-clés: Improved artificial bee colony (IABC)
Fractional order proportional-integral-derivative controller (FOPID)
Low order approximation (LOA)
Stability
Automatic voltage regulation (AVR)
Date de publication: 2022
Editeur: MDPI
Collection/Numéro: Energies/ Vol.15, N°23 52022°;pp. 1-20
Résumé: In this paper, a low-order approximation (LOA) of fractional order PID (FOPID) for an automatic voltage regulator (AVR) based on the modified artificial bee colony (ABC) is proposed. The improved artificial bee colony (IABC) high-order approximation (HOA)-based fractional order PID (IABC/HOA-FOPID) controller, which is distinguished by a significant order approximation and by an integer order transfer function, requires the use of a large number of parameters. To improve the AVR system’s performance in terms of transient and frequency response analysis, the memory capacity of the IABC/HOA-FOPID controller was lowered so that it could fit better in the corrective loop. The new robust controller is named the improved artificial bee colony (IABC) low-order approximation (LOA)-based fractional order PID (IABC/LOA-FOPID). The performance of the proposed IABC/LOA-FOPID controller was compared not only to the original ABC algorithm-tuned PID controller, but also to other controllers tuned by state-of-the-art meta-heuristic algorithms such as the improved whale optimization algorithm (IWOA), particle swarm optimization (PSO), cuckoo search (CS), many optimizing liaisons (MOL), genetic algorithm (GA), local unimodal sampling (LUS), and the tree seed algorithm (TSA). Step response, root locus, frequency response, robustness test, and disturbance rejection abilities are all compared. The simulation results and comparisons with the proposed IABC/LOA-FOPID controller and other existing controllers clearly show that the proposed IABC/LOA-FOPID controller outperforms the optimal PID controllers found by other algorithms in all the aforementioned performance tests
URI/URL: https://doi.org/10.3390/en15238973
http://dlibrary.univ-boumerdes.dz:8080/handle/123456789/11556
ISSN: https://www.mdpi.com/1996-1073/15/23/8973
1996-1073
Collection(s) :Publications Internationales

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