基于多头概率稀疏自关注机制 Informer 的超短期光伏功率预测

Yan Jiang, Kaixiang Fu, Weizhi Huang, Jie Zhang, Xiangyong Li, Shuangquan Liu
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引用次数: 0

摘要

作为一种清洁能源,太阳能发电在减少中国电力系统的高碳排放方面发挥着重要作用。然而,系统的间歇性限制了光伏发电的有效利用。本文针对分布式光伏发电超短期预测精度低的问题,比较了多种深度学习模型,创新性地选择了具有多头概率稀疏自注意机制的 Informer 模型进行预测。结果表明,本文提出的CEEMDAN-Informer模型具有更好的预测精度,与单一Informer模型相比,误差指数平均提高了30.88%;Informer模型在中序列预测方面优于其他深度学习模型LSTM和RNN模型,预测精度明显优于二者。本研究提出的功率预测模型提高了光伏超短期功率预测的准确性,证明了深度学习模型在光伏功率预测中的可行性和优越性。同时,本研究的结果可为风电等其他可再生能源的功率预测提供一定的参考。
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Ultra-short-term PV power prediction based on Informer with multi-head probability sparse self-attentiveness mechanism
As a clean energy source, solar power plays an important role in reducing the high carbon emissions of China’s electricity system. However, the intermittent nature of the system limits the effective use of photovoltaic power generation. This paper addresses the problem of low accuracy of ultra-short-term prediction of distributed PV power, compares various deep learning models, and innovatively selects the Informer model with multi-head probability sparse self-attention mechanism for prediction. The results show that the CEEMDAN-Informer model proposed in this paper has better prediction accuracy, and the error index is improved by 30.88% on average compared with the single Informer model; the Informer model is superior to other deep learning models LSTM and RNN models in medium series prediction, and its prediction accuracy is significantly better than the two. The power prediction model proposed in this study improves the accuracy of PV ultra-short-term power prediction and proves the feasibility and superiority of the deep learning model in PV power prediction. Meanwhile, the results of this study can provide some reference for the power prediction of other renewable energy sources, such as wind power.
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