每小时全球太阳辐射的预测:神经网络/自举聚合的比较

Pub Date : 2023-03-18 DOI:10.15255/kui.2022.065
Abdennasser Dahmani, Y. Ammi, S. Hanini, M. Yaiche, H. Zentou
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引用次数: 1

摘要

本研究工作探讨了单神经网络和自举聚合神经网络用于预测每小时全球太阳辐射的使用。3606个数据点的数据库来自Bouzareah的可再生能源发展中心的辐射测量站“Shems”。将单神经网络与自举聚合神经网络相结合。采用自举聚合神经网络,提高了由不完全训练数据集生成的神经网络模型的精度和耐久性。为了产生大量的训练数据点,训练数据被重新采样利用自举重采样替换。为每个数据点建立神经网络模型。然后将单个神经网络模型组合在一起,生成自举聚合神经网络。结果表明,单神经网络和自举聚合神经网络在测试阶段分别获得了较低的均方根误差(68.3968和62.4856 Wh m−2)。这些模型的结果表明,自举聚合神经网络模型比单个神经网络模型具有更高的精度和鲁棒性。
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Prediction of Hourly Global Solar Radiation: Comparison of Neural Networks / Bootstrap Aggregating
This research work explores the use of single neural networks and bootstrap aggregated neural networks for predicting hourly global solar radiation. A database of 3606 data points were from the Renewable Energies Development Center, radiometric station ‘Shems’ of Bouzareah. The single neural networks and bootstrap aggregated neural networks were built together. The precision and durability of neural network models generated with an incomplete quantity of training datasets were improved using bootstrap aggregated neural networks. To produce numerous sets of training data points, the training data was re-sampled utilising bootstrap resampling by replacement. A neural network model was built for each of the data points. The individual neural network models were then combined to produce the bootstrap aggregated neural networks. The experimental and predicted values of global solar radiation were compared, and lower root mean squared errors (68.3968 and 62.4856 Wh m −2 ) were discovered during the testing phases for single neural networks and bootstrap aggregated neural networks, respectively. The results of these models show that the bootstrap aggregated neural networks model is more accurate and robust than single neural networks.
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