Maximum Power Point Tracking for Brushless DC Motor-Driven Photovoltaic Pumping Systems Using a Hybrid ANFIS-FLOWER Pollination Optimization Algorithm

Maximum Power Point Tracking for Brushless DC Motor-Driven Photovoltaic Pumping Systems Using a Hybrid ANFIS-FLOWER Pollination Optimization Algorithm

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In this research paper, a hybrid Artificial Neural Network click here (ANN)-Fuzzy Logic Control (FLC) tuned Flower Pollination Algorithm (FPA) as a Maximum Power Point Tracker (MPPT) is employed to amend root mean square error (RMSE) of photovoltaic (PV) modeling.Moreover, Gaussian membership functions have been considered for fuzzy controller design.This paper interprets the Luo converter occupied brushless DC motor (BLDC)-directed PV water pump application.Experimental responses certify the effectiveness of the suggested motor-pump system supporting diverse operating states.The Luo converter, a newly developed DC-DC converter, has high power density, better voltage gain transfer and superior output waveform and can yale law school colors track optimal power from PV modules.

For BLDC speed control there is no extra circuitry, and phase current sensors are enforced for this scheme.The most recent attempt using adaptive neuro-fuzzy inference system (ANFIS)-FPA-operated BLDC directed PV pump with advanced Luo converter, has not been formerly conferred.