Abstract
Photovoltaic (PV) modules are exposed to the outside, which is affected by radiation, the temperature of the PV module back-surface, relative humidity, atmospheric pressure and other factors, which makes it difficult to test and analyze the performance of photovoltaic modules. Traditionally, the equivalent circuit method is used to analyze the performance of PV modules, but there are large errors. In this paper—based on machine learning methods and large amounts of photovoltaic test data—convolutional neural network (CNN) and multilayer perceptron (MLP) neural network models are established to predict the I–V curve of photovoltaic modules. Furthermore, the accuracy and the fitting degree of these methods for current–voltage (I–V) curve prediction are compared in detail. The results show that the prediction accuracy of the CNN and MLP neural network model is significantly better than that of the traditional equivalent circuit models. Compared with MLP models, the CNN model has better accuracy and fitting degree. In addition, the error distribution concentration of CNN has better robustness and the pre-test curve is smoother and has better nonlinear segment fitting effects. Thus, the CNN is superior to MLP model and the traditional equivalent circuit model in complex climate conditions. CNN is a high-confidence method to predict the performance of PV modules.
Highlights
As well known, the problem of energy shortage in the world becomes serious
The evaluation terms for the I–V curves are defined as Mean Absolute Error (MAE, seen in equation (14)) and Root Mean Square Error (RMSE) and RMSE is
MAE shows the distance between the predicted value and the fitting effect of I–V curves predicted by multilayer perceptron (MLP) model and convolutional neural network (CNN) model
Summary
The problem of energy shortage in the world becomes serious. Solar energy has become an important new energy because of its cleanness and sustainability. As basic energy collection component of power generation system, the accurate and reliable modeling of PV module is quite significant in design, optimized simulation, operation and evaluation of photovoltaic power generation system [2,3,4]. Some researchers suggest that the random forest (RF) ensemble learning algorithm and the emerging kernel based extreme learning machine (KELM) are explored for the detection and diagnosis of PV arrays early faults (including line-line faults, degradation, open circuit and partial shading). They are based on the accurate acquisition of current–voltage (I–V)
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