Optimal design of frequency load control system in multi-zone power system using PID-fuzzy controller optimized by bee algorithm
Author:
Publisher
Springer Science and Business Media LLC
Subject
Applied Mathematics,Mechanics of Materials,General Materials Science
Link
https://link.springer.com/content/pdf/10.1007/s41939-023-00143-2.pdf
Reference43 articles.
1. Al-Abadi A, Ertunç Ö, Epple P, Koerbel W, Delgado A (2012) Development of an experimental setup for double rotor HAWT investigation. In: Turbo expo: power for land, sea, and air. American Society of Mechanical Engineers, vol 44724, pp 1007–1016
2. Arora K, Kumar A, Kamboj VK (2019) Automatic generation control and load frequency control: a comprehensive review. In: Applications of computing, automation and wireless systems in electrical engineering. Springer, Singapore, pp 449–456
3. Arya Y, Kumar N (2017) Design and analysis of BFOA-optimized fuzzy PI/PID controller for AGC of multi-area traditional/restructured electrical power systems. Soft Comput 1(21):6435–6452
4. Bani-Hani E, Sedaghat A, Saleh A, Ghulom A, Al-Rahmani H, Al-Zamel S, Lopez J (2019) Evaluating performance of horizontal axis double rotor wind turbines. Energy Eng 116(1):26–40
5. Bani-Hani EH, Assad MEH, AlShabi M (2021) Experimental study on drag characteristics of a horizontal axis double rotor wind turbine. In: Energy harvesting and storage: materials, devices, and applications XI (Vol. 11722, p. 117220R). International Society for Optics and Photonics
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