基于特征迁移学习的综合能源系统小样本日前电力负荷预测

孙晓燕; 李家钊; 曾博; 巩敦卫; 廉智勇

引用本文:	孙晓燕,李家钊,曾博,巩敦卫,廉智勇.基于特征迁移学习的综合能源系统小样本日前电力负荷预测[J].控制理论与应用,2021,38(1):63~72.[点击复制]
	SUN Xiao-yan,LI Jia-zhao,ZENG Bo,GONG Dun-wei,LIAN Zhi-yong.Small-sample day-ahead power load forecasting of integrated energy system based on feature transfer learning[J].Control Theory and Technology,2021,38(1):63~72.[点击复制]

基于特征迁移学习的综合能源系统小样本日前电力负荷预测

Small-sample day-ahead power load forecasting of integrated energy system based on feature transfer learning

摘要点击 3158 全文点击 1010 投稿时间：2020-05-18 修订日期：2020-08-19

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DOI编号 10.7641/CTA.2020.00280

2021,38(1):63-72

中文关键词综合能源系统日前电力负荷预测特征提取迁移学习门控循环单元

英文关键词 integrated energy system day-ahead power load forecasting feature extraction transfer learning gated recurrent unit (GRU)

基金项目中央高校基本科研业务费专项资金项目(2020ZDPY0216).

作者	单位	E-mail
孙晓燕^*	中国矿业大学信息与控制工程学院	xysun78@126.com
李家钊	中国矿业大学信息与控制工程学院
曾博	新能源电力系统国家重点实验室（华北电力大学）
巩敦卫	中国矿业大学信息与控制工程学院
廉智勇	太原煤气化龙泉能源发展有限公司

中文摘要

基于历史数据和深度学习的负荷预测已广泛应用于以电能为中心的综合能源系统中以提高预测精度, 然而, 当区域中出现新用户时, 其历史负荷数据往往极少, 此时, 深度学习难以适用. 针对此, 本文提出基于负荷特征提取和迁移学习的预测机制. 首先, 依据源域用户历史负荷数据, 融合聚类算法和门控循环单元网络构建源域数据的特征提取和分类模型; 然后, 利用该模型提取当前待预测目标域小样本的特征及其类别信息, 进而给出基于特征相似度和时间遗忘因子的特征融合策略; 最后, 依据融合特征, 给出基于迁移学习和特征输入的负荷预测. 将所提算法应用于卡迪夫某区域的高中和住宅用电预测中, 实验结果表明了该算法在综合能源系统小样本电力负荷预测中的有效性.

英文摘要

Deep learning-based load forecasting with large size of historical data has been successfully used in integrated energy systems to effectively improve the prediction accuracy. However, when new users join in the system, the historical load data is often very rare, and deep learning is no longer applicable. Motivated by this, we propose a forecasting mechanism based on load feature extraction and transfer learning. Firstly, the feature extraction and classification models of source domain data are constructed through optimal clustering and gated recurrent unit (GRU) training. Then, the trained GRU classification model is used to extract the features and category information of small samples in the target domain to be predicted. A feature fusion strategy based on feature similarity and time forgetting factor is proposed. Finally, according to the fusion characteristics, the load prediction based on transfer learning and feature input is given. The proposed algorithm is applied to the electricity load forecasting of high schools and buildings in Cardiff. The experimental results show the effectiveness of the algorithm in power load forecasting with small size of samples.