Explainability and Interpretability in Electric Load Forecasting Using Machine Learning Techniques – A Review

IF 9.6 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Energy and AI Pub Date : 2024-03-12 DOI:10.1016/j.egyai.2024.100358
Lukas Baur , Konstantin Ditschuneit , Maximilian Schambach , Can Kaymakci , Thomas Wollmann , Alexander Sauer
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Abstract

Electric Load Forecasting (ELF) is the central instrument for planning and controlling demand response programs, electricity trading, and consumption optimization. Due to the increasing automation of these processes, meaningful and transparent forecasts become more and more important. Still, at the same time, the complexity of the used machine learning models and architectures increases.

Because there is an increasing interest in interpretable and explainable load forecasting methods, this work conducts a literature review to present already applied approaches regarding explainability and interpretability for load forecasts using Machine Learning. Based on extensive literature research covering eight publication portals, recurring modeling approaches, trends, and modeling techniques are identified and clustered by properties to achieve more interpretable and explainable load forecasts.

The results on interpretability show an increase in the use of probabilistic models, methods for time series decomposition and the use of fuzzy logic in addition to classically interpretable models. Dominant explainable approaches are Feature Importance and Attention mechanisms. The discussion shows that a lot of knowledge from the related field of time series forecasting still needs to be adapted to the problems in ELF. Compared to other applications of explainable and interpretable methods such as clustering, there are currently relatively few research results, but with an increasing trend.

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利用机器学习技术进行电力负荷预测的可解释性和可解读性 - 综述
电力负荷预测 (ELF) 是规划和控制需求响应计划、电力交易和消费优化的核心工具。由于这些流程的自动化程度不断提高,有意义且透明的预测变得越来越重要。然而,与此同时,所使用的机器学习模型和架构的复杂性也在增加。由于人们对可解释和可说明的负荷预测方法的兴趣与日俱增,本研究通过文献综述,介绍了已应用的有关使用机器学习进行负荷预测的可解释性和可说明性的方法。可解释性方面的研究结果表明,除了经典的可解释性模型外,概率模型、时间序列分解方法和模糊逻辑的使用也在增加。主要的可解释方法是特征重要性和注意力机制。讨论表明,时间序列预测相关领域的许多知识仍需加以调整,以适应 ELF 中的问题。与聚类等其他可解释和可解释方法的应用相比,目前的研究成果相对较少,但有增加的趋势。
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来源期刊
Energy and AI
Energy and AI Engineering-Engineering (miscellaneous)
CiteScore
16.50
自引率
0.00%
发文量
64
审稿时长
56 days
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