於世为 An Integrated AMPSO-CLSTM Model for Photovoltaic Power Generation Prediction

发布人:胡松琴 发布时间:2023-03-10 点击次数:

我校金沙8888js官方於世为老师在T4级别期刊——《Frontiers in Energy Research》上发表题为“An Integrated AMPSO-CLSTM Model for Photovoltaic Power Generation Prediction ”。论文第一作者於世为为金沙8888js官方教授,博士生导师。

Abstract / 摘要

原文 To address the challenges of volatile and intermittent nature in photovoltaic power (PV) generation forecasting, a new convolutional long short-term memory network (CLSTM) prediction model optimized by adaptive mutation particle swarm optimization (AMPSO) is proposed. In this model, the local sensing ability of the convolutional kernels in the CNN is used to extract high-dimensional features from the variable influential factors of PV power generation, and a mapping between time series data and PV is established by the memory ability of the gate control unit in LSTM. The AMPSO algorithm is introduced to optimize the network structure and weights of CLSTM simultaneously. The performance of the model is verified by two different two data sets. The results show that compared with that of the CLSTM, Auto-LSTM, LSTM and recurrent neural network models, the root mean square error (RMSE) of the AMPSO-CLSTM model decreases by 1.92–6.53% and 6.23–31.10%, the mean absolute error (MAE) decreases by 6.92–16.87% and 11.71–48.84%, and the mean absolute percentage error (MAPE) decreases by 13.24–31.75% and 12.22–49.00%, respectively. Compared with those of the CLSTM model, the number of channels in the convolutional layer of the AMPSO-CLSTM is reduced by 51.76–71.09% and 61.72–86.72%, respectively, and the number of hidden neurons in LSTM is reduced by 32–60% and 53–84%, respectively.

论文信息;

Title/题目:

An Integrated AMPSO-CLSTM Model for Photovoltaic Power Generation Prediction

Authors/作者:

Yu Shiwei; Han Ruilian; Zheng Yuxuan; Gong Chengzhu

Keywords /关键词

deep learning neural networks; convolutional neural network; long short-term memory network; photovoltaic power; prediction; adaptive mutation particle swarm optimization

Indexed by /核心评价

SCI; EI; WAJCI; Scopus; SCIE; INSPEC;

DOI: 10.3389/FENRG.2022.815256

全文链接:https://www.frontiersin.org/articles/10.3389/fenrg.2022.815256/full