Implementing Coati Optimization Algorithm in Fuzzy Logic-Based Fractional-Order Tilt-Integral-Derivative Controller for Automatic Generation Control in Multi-Area Multi-Unit Power System
When there is a mismatch in electrical power produced and the demanded electrical loading in an interconnected electrical power system, it results in deviations in frequencies in the constituent areas and in tie-line power as well. This issue is addressed by automatic generation control which when c...
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| Main Authors: | , , |
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| Format: | Article |
| Language: | English |
| Published: |
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2024-05-01
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| Series: | Electrica |
| Online Access: | https://electricajournal.org/en/implementing-coati-optimization-algorithm-in-fuzzy-logic-based-fractional-order-tilt-integral-derivative-controller-for-automatic-generation-control-in-multi-area-multi-unit-power-system-131234 |
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| Summary: | When there is a mismatch in electrical power produced and the demanded electrical loading in an interconnected electrical power system, it results in deviations in frequencies in the constituent areas and in tie-line power as well. This issue is addressed by automatic generation control which when coupled with intelligent controller leads to fast recovery of the deviations both in tie-line power and frequencies from the assigned ranges associated with each of these areas. This paper is an attempt to utilize fuzzy logic-based fractional-order tilt-integral-derivative (Fuzzy FOTID) controller with gains/parameter optimized using the recent Coati Optimization Algorithm. Comparative studies are undertaken as a part of this work to exhibit the Fuzzy FOTID controller's supremacy over other popular controllers like proportional-integral-derivative, TID, and FOTID. |
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| ISSN: | 2619-9831 |