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Article type: Research Article
Authors: Hamdoun, Halaa; b | Sagheer, Alaaa; c; * | Youness, Hassanb
Affiliations: [a] Center for Artificial Intelligence and Robotics (CAIRO), Faculty of Science, Aswan University, Egypt | [b] Department of Computers and Systems Engineering, Faculty of Engineering, Minia University, Egypt | [c] College of Computer Science and Information Technology, King Faisal University, Saudi Arabia
Correspondence: [*] Corresponding author. Alaa Sagheer. E-mail: [email protected].
Abstract: Machine learning methods have been adopted in the literature as contenders to conventional methods to solve the energy time series forecasting (TSF) problems. Recently, deep learning methods have been emerged in the artificial intelligence field attaining astonishing performance in a wide range of applications. Yet, the evidence about their performance in to solve the energy TSF problems, in terms of accuracy and computational requirements, is scanty. Most of the review articles that handle the energy TSF problem are systematic reviews, however, a qualitative and quantitative study for the energy TSF problem is not yet available in the literature. The purpose of this paper is twofold, first it provides a comprehensive analytical assessment for conventional, machine learning, and deep learning methods that can be utilized to solve various energy TSF problems. Second, the paper carries out an empirical assessment for many selected methods through three real-world datasets. These datasets related to electrical energy consumption problem, natural gas problem, and electric power consumption of an individual household problem. The first two problems are univariate TSF and the third problem is a multivariate TSF. Compared to both conventional and machine learning contenders, the deep learning methods attain a significant improvement in terms of accuracy and forecasting horizons examined. In the meantime, their computational requirements are notably greater than other contenders. Eventually, the paper identifies a number of challenges, potential research directions, and recommendations to the research community may serve as a basis for further research in the energy forecasting domain.
Keywords: Energy time series forecasting, conventional forecasting methods, machine learning, deep learning, energy management systems
DOI: 10.3233/JIFS-201717
Journal: Journal of Intelligent & Fuzzy Systems, vol. 40, no. 6, pp. 12477-12502, 2021
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