A critical evaluation of maximum power point tracking techniques for PV systems working under partial shading conditions
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Publisher
Turkish Journal of Engineering
Reference81 articles.
1. Ahmed, Jubaer, and Zainal %J Applied Energy Salam. 2014. 'A Maximum Power Point Tracking (MPPT) for PV system using Cuckoo Search with partial shading capability', 119: 118-30.
2. Ahmed, Jubaer, and Zainal %J IEEE transactions on industrial informatics Salam. 2017. 'An accurate method for MPPT to detect the partial shading occurrence in a PV system', 13: 2151-61.
3. Alhaj Omar, Fuad, and Ahmet Afsin Kulaksiz. 2021. 'Experimental evaluation of a hybrid global maximum power tracking algorithm based on modified firefly and perturbation and observation algorithms', Neural Computing and Applications, 33: 17185-208.
4. ALHAJOMAR, Fuad, Goksel GOKKUS, and Ahmet Afsin KULAKSIZ. 'Rapid Control Prototyping Based on 32-bit ARM Cortex-M3 Microcontroller for Photovoltaic MPPT Algorithms'.
5. Anwer, Abbas Mahmood Oghor, Fuad Alhaj Omar, Hale Bakir, and Ahmet Afsin %J Elektronika ir Elektrotechnika Kulaksiz. 2020. 'Sensorless Control of a PMSM Drive Using EKF for Wide Speed Range Supplied by MPPT Based Solar PV System', 26: 32-39.
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