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Autores principales: Davut Izci, Serdar Ekinci, Rizk M. Rizk‐Allah, Nada Ibrahim Alribdi, Aseel Smerat, Ahmed Alzahrani, Ayed Alwadain, Vaclav Snasel, Laith Abualigah
Formato: Artículo Open Access
Publicado: Wiley 2025
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Acceso en línea:https://onlinelibrary.wiley.com/doi/10.1002/oca.3313
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author Davut Izci
Serdar Ekinci
Rizk M. Rizk‐Allah
Nada Ibrahim Alribdi
Aseel Smerat
Ahmed Alzahrani
Ayed Alwadain
Vaclav Snasel
Laith Abualigah
author_facet Davut Izci
Serdar Ekinci
Rizk M. Rizk‐Allah
Nada Ibrahim Alribdi
Aseel Smerat
Ahmed Alzahrani
Ayed Alwadain
Vaclav Snasel
Laith Abualigah
Davut Izci
Serdar Ekinci
Rizk M. Rizk‐Allah
Nada Ibrahim Alribdi
Aseel Smerat
Ahmed Alzahrani
Ayed Alwadain
Vaclav Snasel
Laith Abualigah
collection Wiley Open Access
contents Master–Slave Architecture Enhanced and Improved GBO Tuned Cascaded PI‐PDN Controller for Speed Regulation of DC Motors Davut Izci Serdar Ekinci Rizk M. Rizk‐Allah Nada Ibrahim Alribdi Aseel Smerat Ahmed Alzahrani Ayed Alwadain Vaclav Snasel Laith Abualigah Optimal Control Applications and Methods ABSTRACTThis study introduces a novel master–slave architecture featuring an improved gradient‐based optimizer (ImGBO) to effectively tune a cascaded proportional‐integral (PI) and proportional‐derivative with filter (PDN) controller specifically for DC motor speed regulation. The core novelty of this work lies in enhancing the traditional GBO algorithm by integrating an experience‐based perturbed learning mechanism and an adaptive local search strategy, significantly enhancing its ability to balance exploration and exploitation during optimization. The proposed ImGBO‐based cascaded PI‐PDN controller is comprehensively evaluated against traditional GBO, recent metaheuristics and advanced proportional‐integral‐derivative (PID) and fractional‐order PID (FOPID) controllers. Significant improvements were observed, with the proposed method demonstrating exceptionally short rise (0.0089 s) and settling times (0.0140 s), no overshoot, and minimal steady‐state error (0.0017%). Stability analysis via pole placement and Bode plots affirmed the robust and stable operation of the controller, exhibiting a phase margin of 71.6640° and infinite gain margin. These results strongly support the suitability and effectiveness of the ImGBO‐based approach for precision‐critical DC motor control applications. 10.1002/oca.3313 http://onlinelibrary.wiley.com/termsAndConditions#vor
doi_str_mv 10.1002/oca.3313
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spellingShingle Master–Slave Architecture Enhanced and Improved GBO Tuned Cascaded PI‐PDN Controller for Speed Regulation of DC Motors
Davut Izci
Serdar Ekinci
Rizk M. Rizk‐Allah
Nada Ibrahim Alribdi
Aseel Smerat
Ahmed Alzahrani
Ayed Alwadain
Vaclav Snasel
Laith Abualigah
Optimal Control Applications and Methods
Master–Slave Architecture Enhanced and Improved GBO Tuned Cascaded PI‐PDN Controller for Speed Regulation of DC Motors Davut Izci Serdar Ekinci Rizk M. Rizk‐Allah Nada Ibrahim Alribdi Aseel Smerat Ahmed Alzahrani Ayed Alwadain Vaclav Snasel Laith Abualigah Optimal Control Applications and Methods ABSTRACTThis study introduces a novel master–slave architecture featuring an improved gradient‐based optimizer (ImGBO) to effectively tune a cascaded proportional‐integral (PI) and proportional‐derivative with filter (PDN) controller specifically for DC motor speed regulation. The core novelty of this work lies in enhancing the traditional GBO algorithm by integrating an experience‐based perturbed learning mechanism and an adaptive local search strategy, significantly enhancing its ability to balance exploration and exploitation during optimization. The proposed ImGBO‐based cascaded PI‐PDN controller is comprehensively evaluated against traditional GBO, recent metaheuristics and advanced proportional‐integral‐derivative (PID) and fractional‐order PID (FOPID) controllers. Significant improvements were observed, with the proposed method demonstrating exceptionally short rise (0.0089 s) and settling times (0.0140 s), no overshoot, and minimal steady‐state error (0.0017%). Stability analysis via pole placement and Bode plots affirmed the robust and stable operation of the controller, exhibiting a phase margin of 71.6640° and infinite gain margin. These results strongly support the suitability and effectiveness of the ImGBO‐based approach for precision‐critical DC motor control applications. 10.1002/oca.3313 http://onlinelibrary.wiley.com/termsAndConditions#vor
title Master–Slave Architecture Enhanced and Improved GBO Tuned Cascaded PI‐PDN Controller for Speed Regulation of DC Motors
topic Optimal Control Applications and Methods
url https://onlinelibrary.wiley.com/doi/10.1002/oca.3313