崔昊杨,周坤,胡丰晔,张宇,夏晟.基于改进LSTM的电力设备状态融合预测模型[J].电测与仪表,2023,60(1):10-15. Cui Haoyang,Zhou Kun,Hu Fengye,Zhang Yu,Xia Sheng.State fusion prediction model of power equipment based on improved LSTM[J].Electrical Measurement & Instrumentation,2023,60(1):10-15.
基于改进LSTM的电力设备状态融合预测模型
State fusion prediction model of power equipment based on improved LSTM
针对电力大数据存在数据随机缺失进而降低长短期记忆模型(Long Short-term Memory, LSTM)预测准确率的问题,文中提出了一种基于改进LSTM的电力设备状态融合预测模型。该模型先对状态数据进行缺值检测和平稳分析,根据历史数据利用差分整合移动平均自回归模型(Autoregressive Integrated Moving Average Model, ARIMA)对缺失的数值进行预测,并将预测的数值补充至相应的缺失位置;将新的完整数据输入到ARIAM模型和改进LSTM模型中以获取两种预测值;根据改进LSTM模型的学习准确率和ARIAM模型的拟合度对预测值进行权重分配,并在此基础上进行状态趋势融合预测。为了验证文中模型的普适性和预估准确性,选择电力负荷数据开展实验,结果表明:基于改进LSTM的电力设备状态融合预测模型在数据完整情况下的预测准确率比ARIAM和LSTM分别提高了52%和25%,在数据缺失情况下的预测准确率分别提高了44%和57%。
英文摘要:
Aiming at the problem that power big data has random missing data and reduces the prediction accuracy of long short-term memory (LSTM), an improved fusion prediction model for power equipment based on improved LSTM is proposed in this paper. The model firstly performs missing value detection and stable analysis on the state data, and adopts the differential integrated moving average autoregressive model (ARIMA) to predict the missing values based on historical data, and supplements the predicted values to the corresponding missing position; and then, the new complete data is input into the ARIAM model and the improved LSTM model to obtain two kinds of prediction values; finally, the weights are assigned to the prediction values according to the learning accuracy of the improved LSTM model and the fitting degree of the ARIAM model, and on this basis, state trend fusion prediction is performed. In order to verify the universality and prediction accuracy of the model in this paper, the power load data was selected to carry out experiments. The results show that the prediction accuracy of the power equipment state fusion prediction model based on the improved LSTM under the condition of complete data is higher 52% and 25% than that of ARIAM and LSTM respectively, and the prediction accuracy in the absence of data has been improved by 44% and 57% respectively.
