Comparison of machine learning algorithms for evaluating building energy efficiency using big data analytics

IF 2.6 Q1 ENGINEERING, MULTIDISCIPLINARY

Journal of Engineering Design and Technology Pub Date : 2022-09-26 DOI:10.1108/jedt-05-2022-0238

Christian Nnaemeka Egwim, H. Alaka, Oluwapelumi Oluwaseun Egunjobi, Á. Gomes, I. Mporas

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引用次数: 3

Abstract

Purpose This study aims to compare and evaluate the application of commonly used machine learning (ML) algorithms used to develop models for assessing energy efficiency of buildings. Design/methodology/approach This study foremostly combined building energy efficiency ratings from several data sources and used them to create predictive models using a variety of ML methods. Secondly, to test the hypothesis of ensemble techniques, this study designed a hybrid stacking ensemble approach based on the best performing bagging and boosting ensemble methods generated from its predictive analytics. Findings Based on performance evaluation metrics scores, the extra trees model was shown to be the best predictive model. More importantly, this study demonstrated that the cumulative result of ensemble ML algorithms is usually always better in terms of predicted accuracy than a single method. Finally, it was discovered that stacking is a superior ensemble approach for analysing building energy efficiency than bagging and boosting. Research limitations/implications While the proposed contemporary method of analysis is assumed to be applicable in assessing energy efficiency of buildings within the sector, the unique data transformation used in this study may not, as typical of any data driven model, be transferable to the data from other regions other than the UK. Practical implications This study aids in the initial selection of appropriate and high-performing ML algorithms for future analysis. This study also assists building managers, residents, government agencies and other stakeholders in better understanding contributing factors and making better decisions about building energy performance. Furthermore, this study will assist the general public in proactively identifying buildings with high energy demands, potentially lowering energy costs by promoting avoidance behaviour and assisting government agencies in making informed decisions about energy tariffs when this novel model is integrated into an energy monitoring system. Originality/value This study fills a gap in the lack of a reason for selecting appropriate ML algorithms for assessing building energy efficiency. More importantly, this study demonstrated that the cumulative result of ensemble ML algorithms is usually always better in terms of predicted accuracy than a single method.

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使用大数据分析评估建筑能效的机器学习算法的比较

目的本研究旨在比较和评估常用的机器学习（ML）算法在开发建筑能效评估模型中的应用。设计/方法论/方法本研究主要结合了来自几个数据源的建筑能效评级，并使用各种ML方法创建预测模型。其次，为了检验集成技术的假设，本研究设计了一种混合堆叠集成方法，该方法基于其预测分析生成的性能最佳的装袋和助推集成方法。结果基于绩效评估指标得分，额外树模型被证明是最好的预测模型。更重要的是，这项研究表明，在预测精度方面，集成ML算法的累积结果通常比单一方法更好。最后，人们发现，在分析建筑能效方面，堆叠是一种比装袋和升压更好的集成方法。研究局限性/含义虽然所提出的当代分析方法被认为适用于评估该行业内建筑的能源效率，但本研究中使用的独特数据转换可能不像任何数据驱动模型那样典型，可转移到英国以外的其他地区的数据。实际意义这项研究有助于初步选择合适且高性能的ML算法用于未来的分析。这项研究还帮助建筑管理者、居民、政府机构和其他利益相关者更好地了解影响因素，并就建筑能源性能做出更好的决策。此外，这项研究将帮助公众主动识别能源需求高的建筑，通过促进规避行为，潜在地降低能源成本，并帮助政府机构在将这种新模式集成到能源监测系统中时，就能源价格做出明智的决定。独创性/价值这项研究填补了一个空白，即没有理由选择合适的ML算法来评估建筑能效。更重要的是，这项研究表明，在预测精度方面，集成ML算法的累积结果通常比单一方法更好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Engineering Design and Technology ENGINEERING, MULTIDISCIPLINARY-

CiteScore

6.50

自引率

21.40%

发文量

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