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Article
Design of Cascaded PI-Fractional Order PID Controller for Improving the Frequency Response of Hybrid Microgrid System Using Gorilla Troops OptimizerIEEE Access10.1109/ACCESS.2021.3125317
Conference
Grasshopper Tuned PID Controller in Three Area System2023 IEEE 2nd International Conference on Industrial Electronics: Developments & Applications (ICIDeA)10.1109/ICIDeA59866.2023.10295171
Conference
A Newly Resilient Combination of PIDD2 and PD Controllers to Boost the Frequency Response in a Two-Area Hybrid Power System with Nonlinearities Using Wild Horse Optimizer2022 International Conference on Electrical, Computer and Energy Technologies (ICECET)10.1109/ICECET55527.2022.9872802

Grasshopper Optimization Algorithm-Based Fuzzy-2DOF-PID Controller for LFC of Interconnected System With Nonlinearities

Debasis Tripathy, Nalin Behari Dev Choudhury, Binod Kumar Sahu

Source Title: International Journal of Social Ecology and Sustainable Development (IJSESD)12(3)

ISSN: 1947-8402|EISSN: 1947-8410|EISBN13: 9781799861928|DOI: 10.4018/IJSESD.2021070102

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MLA

Tripathy, Debasis, et al. "Grasshopper Optimization Algorithm-Based Fuzzy-2DOF-PID Controller for LFC of Interconnected System With Nonlinearities." IJSESD vol.12, no.3 2021: pp.11-29. http://doi.org/10.4018/IJSESD.2021070102

APA

Tripathy, D., Dev Choudhury, N. B., & Sahu, B. K. (2021). Grasshopper Optimization Algorithm-Based Fuzzy-2DOF-PID Controller for LFC of Interconnected System With Nonlinearities. International Journal of Social Ecology and Sustainable Development (IJSESD), 12(3), 11-29. http://doi.org/10.4018/IJSESD.2021070102

Chicago

Tripathy, Debasis, Nalin Behari Dev Choudhury, and Binod Kumar Sahu. "Grasshopper Optimization Algorithm-Based Fuzzy-2DOF-PID Controller for LFC of Interconnected System With Nonlinearities," International Journal of Social Ecology and Sustainable Development (IJSESD) 12, no.3: 11-29. http://doi.org/10.4018/IJSESD.2021070102

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Abstract

The load frequency control (LFC) is an automation scheme employed for an interconnected power system to overcome the frequency deviation issue because of load variation in the most economical way. This work puts an earliest effort to study the LFC issue of a three-area power systems including nonlinearities using fuzzy-two degree of freedom-PID (F-2DOF-PID) controller optimized with grasshopper optimization algorithm (GOA). Initially, GOA optimized PID controllers are considered for a two area non-reheat thermal system including generation rate constraint to validate the superiority over PID controllers tuned with some recently reported optimization techniques, such as hybrid firefly algorithm-pattern search, firefly algorithm, bacteria foraging optimization algorithm, genetic algorithm, and conventional Ziegler Nichols technique. Then the work is reconsidered for the same system to verify the supremacy of F-2DOF-PID controller over other controllers such as fuzzy-PID, two degree of freedom-PID, and PID with GOA framework. Furthermore, the study is extended to a three-area system considering the effect of nonlinearities to verify effectiveness and robustness of proposed controller.

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Grasshopper Optimization Algorithm-Based Fuzzy-2DOF-PID Controller for LFC of Interconnected System With Nonlinearities

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