MFO-WC Based Fuzzy logic PI Controller for Load Frequency Control of Autonomous Microgrid System
In This paper, a mathematical model of an autonomous micro-grid (MG) with both uncontrollable and controllable sources is proposed for load frequency analysis.Using the ITAE fitness function, a new hybrid algorithm based on Moth Flame and Water Cycle Optimization (MFO-WC) is used to tune Fuzzy logic...
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| Published in | International Conference on Control, Decision and Information Technologies (Online) Vol. 1; pp. 200 - 205 |
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| Main Authors | , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
17.05.2022
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2576-3555 |
| DOI | 10.1109/CoDIT55151.2022.9803998 |
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| Abstract | In This paper, a mathematical model of an autonomous micro-grid (MG) with both uncontrollable and controllable sources is proposed for load frequency analysis.Using the ITAE fitness function, a new hybrid algorithm based on Moth Flame and Water Cycle Optimization (MFO-WC) is used to tune Fuzzy logic proportional-integral (FLPI) controller parameters in order to minimize frequency deviation of the proposed microgrid. This study considers a variety of scenarios to illustrate the superiority of the suggested controller. Only a rapid change in load, wind and solar power chanes, as well as parametric uncertainty, have been evaluated in the scenarios. The superiority of MFO-WC is demonstrated by comparison with other algorithms such as PSO, MFO, WC and GA. Frequency model of system was developed in MATLAB /SIMULINK and the simulation results for different scenarios confirms that (MFO-WC) tuned FLPI is having better performance compared to other techniques. |
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| AbstractList | In This paper, a mathematical model of an autonomous micro-grid (MG) with both uncontrollable and controllable sources is proposed for load frequency analysis.Using the ITAE fitness function, a new hybrid algorithm based on Moth Flame and Water Cycle Optimization (MFO-WC) is used to tune Fuzzy logic proportional-integral (FLPI) controller parameters in order to minimize frequency deviation of the proposed microgrid. This study considers a variety of scenarios to illustrate the superiority of the suggested controller. Only a rapid change in load, wind and solar power chanes, as well as parametric uncertainty, have been evaluated in the scenarios. The superiority of MFO-WC is demonstrated by comparison with other algorithms such as PSO, MFO, WC and GA. Frequency model of system was developed in MATLAB /SIMULINK and the simulation results for different scenarios confirms that (MFO-WC) tuned FLPI is having better performance compared to other techniques. |
| Author | Ferfra, Mohammed Bouaddi, Abdessamade Rabeh, Reda |
| Author_xml | – sequence: 1 givenname: Abdessamade surname: Bouaddi fullname: Bouaddi, Abdessamade organization: RTEEC Team, Ecole Mohammadia d'Ingénieurs (EMI), Mohammed V University in Rabat,Morocco – sequence: 2 givenname: Reda surname: Rabeh fullname: Rabeh, Reda organization: RTEEC Team, Ecole Mohammadia d'Ingénieurs (EMI), Mohammed V University in Rabat,Morocco – sequence: 3 givenname: Mohammed surname: Ferfra fullname: Ferfra, Mohammed organization: RTEEC Team, Ecole Mohammadia d'Ingénieurs (EMI), Mohammed V University in Rabat,Morocco |
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| Snippet | In This paper, a mathematical model of an autonomous micro-grid (MG) with both uncontrollable and controllable sources is proposed for load frequency... |
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| StartPage | 200 |
| SubjectTerms | Fuzzy logic Fuzzy PI controller Heuristic algorithms load frequency control Microgrid Microgrids MothFlame and Water Cycle Optimization Optical wavelength conversion PI control Power system stability Simulation |
| Title | MFO-WC Based Fuzzy logic PI Controller for Load Frequency Control of Autonomous Microgrid System |
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