This work presents a machine-learning(ML)algorithm for maximum power point tracking(MPPT)of an isolated photovoltaic(PV)system.Due to the dynamic nature of weather conditions,the energy generation of PV systems is non...This work presents a machine-learning(ML)algorithm for maximum power point tracking(MPPT)of an isolated photovoltaic(PV)system.Due to the dynamic nature of weather conditions,the energy generation of PV systems is non-linear.Since there is no specific method for effectively dealing with the non-linear data,the use of ML methods to operate the PV system at its maximum power point(MPP)is desirable.A strategy based on the decision-tree(DT)regression ML algorithm is proposed in this work to determine the MPP of a PV system.The data were gleaned from the technical specifications of the PV module and were used to train and test the DT.These algorithms predict the maximum power available and the associated voltage of the module for a defined amount of irradiance and temperature.The boost converter duty cycle was determined using predicted values.The simulation was carried out for a 10-W solar panel with a short-circuit current of 0.62 A and an open-circuit voltage of 21.50 V at 1000 W/m^(2) irradiance and a temperature of 25℃.The simulation findings demonstrate that the proposed method compelled the PV panel to work at the MPP predicted by DTs compared to the existing topologies such asβ-MPPT,cuckoo search and artificial neural network results.From the proposed algorithm,efficiency has been improved by>93.93%in the steady state despite erratic irradiance and temperatures.展开更多
文摘This work presents a machine-learning(ML)algorithm for maximum power point tracking(MPPT)of an isolated photovoltaic(PV)system.Due to the dynamic nature of weather conditions,the energy generation of PV systems is non-linear.Since there is no specific method for effectively dealing with the non-linear data,the use of ML methods to operate the PV system at its maximum power point(MPP)is desirable.A strategy based on the decision-tree(DT)regression ML algorithm is proposed in this work to determine the MPP of a PV system.The data were gleaned from the technical specifications of the PV module and were used to train and test the DT.These algorithms predict the maximum power available and the associated voltage of the module for a defined amount of irradiance and temperature.The boost converter duty cycle was determined using predicted values.The simulation was carried out for a 10-W solar panel with a short-circuit current of 0.62 A and an open-circuit voltage of 21.50 V at 1000 W/m^(2) irradiance and a temperature of 25℃.The simulation findings demonstrate that the proposed method compelled the PV panel to work at the MPP predicted by DTs compared to the existing topologies such asβ-MPPT,cuckoo search and artificial neural network results.From the proposed algorithm,efficiency has been improved by>93.93%in the steady state despite erratic irradiance and temperatures.