基于CEEMDAN-VMD和優化LSTM的電力短期負荷預測
馬藝銘
(國網遼寧省電力有限公司大連供電公司,遼寧 大連 116001)
摘 要 :電力系統負荷具有波動性高、隨機性強、不確定性及復雜度高的特點,為進一步提高電力 短期負荷預測精度,需要深層次挖掘數據間的非線性關系。提出了一種基于自適應噪聲完備集合經驗模 態分解 (CEEMDAN) 和變分模態分解 (VMD) 二次模態分解的長短期記憶 (LSTM) 網絡電力短期負荷預測模型。在利用CEEMDAN對原始數據序列進行初次模態分解得到序分量后,采用K-means手段將序分量樣本熵 (SampEn/SE) 聚類為三部分,對其中的強非平穩序列進行VMD技術的二次分解以減弱其非平穩性,將二次分解后得到的序分量與初次模態分解得到的中低頻序分量構建為新的組合后分別通過粒子群優化算法 (PSO) 得到最優超參數,代入參數訓練后得到各分量最優 LSTM 模型,并融合各模型預測結果得到最終負荷預測值。通過實驗表明,相較于其他模型,所提方法在實際預測中具備更好的模型性能和更高的 預測精度。
關鍵詞: 短期負荷預測;二次模態分解;自適應噪聲完備集合經驗模態分解;變分模態分解;樣本熵; 粒子群優化 ;長短期記憶網絡
中圖分類號 :TM715 文獻標識碼 :A 文章編號 :1007-3175(2025)11-0041-07
Short-Time Power Load Forecasting Based on CEEMDANVMD and Optimazed LSTM
MA Yi-ming
(State Grid Liaoning Electric Power Co., Ltd. Dalian Power Supply Company, Dalian 116001, China)
Abstract: Power system load is characterized by high volatility, strong randomness, high uncertainty, and high complexity. To further improve the accuracy of short-term power load forecasting, it is necessary to deeply explore the nonlinear relationships between data. A short-term power load forecasting model based on long short-term memory (LSTM) network with secondary modal decomposition combining complete ensemble empirical mode decomposition with adaptive noise (CEEMDAN) and variational mode decomposition (VMD) is proposed. After the initial modal decomposition of the original data sequence using CEEMDAN to obtain sequential components, the sample entropy (SampEn/SE) of the sequential components is clustered into three parts by K-means method. The strongly non-stationary sequences among them are subjected to secondary decomposition using VMD technology to reduce their non-stationarity. The sequential components obtained from the secondary decomposition and the medium-low frequency sequential components from the initial modal decomposition are constructed into new combinations, and the optimal hyperparameters are obtained for each combination through the particle swarm optimization (PSO) algorithm. After parameter training, the optimal LSTM model for each component is obtained, and the final load forecasting value is derived by fusing the prediction results of each model. Experimental results show that compared with other models, the proposed method exhibits better model performance and higher forecasting accuracy in practical predictions.
Key words: short-term load forecasting; secondary modal decomposition; complete ensemble empirical mode decomposition with adaptive noise ; variational mode decomposition; sample entropy; particle swarm optimization; long short-term memory network
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