增强工业和商业建筑短期电力负荷预测:使用TimeGAN、CNN和LSTM的混合方法

IF 5.2 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Open Journal of the Industrial Electronics Society Pub Date : 2023-09-25 DOI:10.1109/OJIES.2023.3319040

Yushan Liu;Zhouchi Liang;Xiao Li

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引用次数: 1

摘要

智能电表的应用被延迟，导致工业和商业建筑的电力负荷数据采集稀疏，通常只包含几天到几个月的数据。相比之下，深度学习模型需要跨越数年的广泛数据集。为了弥补这一数据缺陷，本文提出了一种将时间序列生成对抗网络(TimeGAN)与卷积神经网络(CNN)增强型长短期记忆(LSTM)神经网络相结合的混合预测方法。最初，使用来自TimeGAN的合成数据扩展稀缺数据集。然后对综合数据进行CNN滤波，优化信息提取，加快预测网络。然后将提取的信息导入LSTM网络进行负荷预测。案例研究使用了四个不同工业和商业建筑类型的两个月电力负荷数据，支持了这一方法。对比分析表明，该模型有效地提高了短期负荷预测的准确性。

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Enhancing Short-Term Power Load Forecasting for Industrial and Commercial Buildings: A Hybrid Approach Using TimeGAN, CNN, and LSTM

The application of smart meters was delayed, leading to sparse power load data collection in industrial and commercial buildings, often encompassing only days to a few months of data. In contrast, deep learning models necessitate extensive datasets, spanning several years. To bridge this data deficit, this article proposes a hybrid forecasting method combining time-series generation adversarial network (TimeGAN) with a convolutional neural network (CNN)-enhanced long short-term memory (LSTM) neural network. Initially, the scarce dataset is expanded using synthetic data derived from TimeGAN. Subsequently, the comprehensive data undergo CNN filtering, optimizing the information extraction and expediting the forecasting network. The extracted information is then channeled into LSTM network for load forecasting. A case study is carried out using two-month power load data from four different industrial and commercial building types, underpins this methodology. Comparative analysis reveals that the proposed model effectively improves short-term power load forecasting accuracy.

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来源期刊

IEEE Open Journal of the Industrial Electronics Society ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

10.80

自引率

2.40%

发文量

审稿时长

12 weeks

期刊介绍： The IEEE Open Journal of the Industrial Electronics Society is dedicated to advancing information-intensive, knowledge-based automation, and digitalization, aiming to enhance various industrial and infrastructural ecosystems including energy, mobility, health, and home/building infrastructure. Encompassing a range of techniques leveraging data and information acquisition, analysis, manipulation, and distribution, the journal strives to achieve greater flexibility, efficiency, effectiveness, reliability, and security within digitalized and networked environments. Our scope provides a platform for discourse and dissemination of the latest developments in numerous research and innovation areas. These include electrical components and systems, smart grids, industrial cyber-physical systems, motion control, robotics and mechatronics, sensors and actuators, factory and building communication and automation, industrial digitalization, flexible and reconfigurable manufacturing, assistant systems, industrial applications of artificial intelligence and data science, as well as the implementation of machine learning, artificial neural networks, and fuzzy logic. Additionally, we explore human factors in digitalized and networked ecosystems. Join us in exploring and shaping the future of industrial electronics and digitalization.