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A Novel Balanced Arithmetic Optimization Algorithm-Optimized Controller for Enhanced Voltage Regulation

Author

Listed:
  • Serdar Ekinci

    (Department of Computer Engineering, Batman University, 72100 Batman, Turkey)

  • Haluk Çetin

    (Institute of Postgraduate Studies, Batman University, 72100 Batman, Turkey)

  • Davut Izci

    (Department of Computer Engineering, Batman University, 72100 Batman, Turkey)

  • Ercan Köse

    (Electrical-Electronics Engineering Department, Tarsus University, 33400 Tarsus, Turkey)

Abstract

This work introduces an innovative approach that unites a PIDND 2 N 2 controller and the balanced arithmetic optimization algorithm (b-AOA) to enhance the stability of an automatic voltage regulator (AVR) system. The PIDND 2 N 2 controller, tailored for precision, stability, and responsiveness, mitigates the limitations of conventional methods. The b-AOA optimizer is obtained through the integration of pattern search and elite opposition-based learning strategies into the arithmetic optimization algorithm. This integration optimizes the controller parameters and the AVR system’s response, harmonizing exploration and exploitation. Extensive assessments, including evaluations on 23 classical benchmark functions, demonstrate the efficacy of the b-AOA. It consistently achieves accurate solutions, exhibits robustness in addressing a wide range of optimization problems, and stands out as a promising choice for various applications. In terms of the AVR system, comparative analyses highlight the superiority of the proposed approach in transient response characteristics, with the shortest rise and settling times and zero overshoot. Additionally, the b-AOA approach excels in frequency response, ensuring robust stability and a broader bandwidth. Furthermore, the proposed approach is compared with various state-of-the-art control methods for the AVR system, showcasing an impressive performance. These results underscore the significance of this work, setting a new benchmark for AVR control by advancing stability, responsiveness, and reliability in power systems.

Suggested Citation

  • Serdar Ekinci & Haluk Çetin & Davut Izci & Ercan Köse, 2023. "A Novel Balanced Arithmetic Optimization Algorithm-Optimized Controller for Enhanced Voltage Regulation," Mathematics, MDPI, vol. 11(23), pages 1-28, November.
    • Handle: RePEc:gam:jmathe:v:11:y:2023:i:23:p:4810-:d:1289848
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    1. Habib Satria & Rahmad B. Y. Syah & Moncef L. Nehdi & Monjee K. Almustafa & Abdelrahman Omer Idris Adam, 2023. "Parameters Identification of Solar PV Using Hybrid Chaotic Northern Goshawk and Pattern Search," Sustainability, MDPI, vol. 15(6), pages 1-24, March.
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