Data science for building energy efficiency: A comprehensive text-mining driven review of scientific literature

[Display omitted] •30,000 full-text building-related articles have been extracted for text mining.•Data-science, energy efficiency, and lifecycle phases relations have been drawn.•Word embeddings model has been used to extract the relationship between keywords.•Gaps, opportunities, and potential fut...

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Veröffentlicht in:	Energy and buildings 2021-07, Vol.242, p.110885, Article 110885
Hauptverfasser:	Abdelrahman, Mahmoud M., Zhan, Sicheng, Miller, Clayton, Chong, Adrian
Format:	Artikel
Sprache:	eng
Schlagworte:	Building energy efficiency Buildings Built environment Construction Data mining Data science Design Energy conversion efficiency Energy efficiency Fault detection Fault diagnosis Generative adversarial networks Green buildings Life cycle analysis Life cycles Literature reviews Natural language processing Reference mining Reviews Scientific papers Transfer learning Urban environments Word embeddings
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container_title	Energy and buildings
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creator	Abdelrahman, Mahmoud M. Zhan, Sicheng Miller, Clayton Chong, Adrian
description	[Display omitted] •30,000 full-text building-related articles have been extracted for text mining.•Data-science, energy efficiency, and lifecycle phases relations have been drawn.•Word embeddings model has been used to extract the relationship between keywords.•Gaps, opportunities, and potential future directions have been discussed. The ever-changing data science landscape is fueling innovation in the built environment context by providing new and more effective means of converting large raw data sets into value for professionals in the design, construction and operations of buildings. The literature developed due to this convergence has rapidly increased in recent years, making it difficult for traditional review approaches to cover all related papers. Therefore, this paper applies a natural language processing (NLP) method to provide an exhaustive and quantitative review.Approximately 30,000 scientific publications were retrieved from the Elsevier API to extract the relationship between data sources, data science techniques, and building energy efficiency applications across the life cycle of buildings. The text-mining and NLP analysis reveals that data sciences techniques are applied more for operation phase applications such as fault detection and diagnosis (FDD), while being under-explored in design and commissioning phases. In addition, it is pointed out that more data science techniques that are to be investigated for various applications. For example, generative adversarial networks (GANs) has potential in facilitating parametric design; transfer learning is a promising path to promoting the application of optimal building operation;
doi_str_mv	10.1016/j.enbuild.2021.110885
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The ever-changing data science landscape is fueling innovation in the built environment context by providing new and more effective means of converting large raw data sets into value for professionals in the design, construction and operations of buildings. The literature developed due to this convergence has rapidly increased in recent years, making it difficult for traditional review approaches to cover all related papers. Therefore, this paper applies a natural language processing (NLP) method to provide an exhaustive and quantitative review.Approximately 30,000 scientific publications were retrieved from the Elsevier API to extract the relationship between data sources, data science techniques, and building energy efficiency applications across the life cycle of buildings. 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The ever-changing data science landscape is fueling innovation in the built environment context by providing new and more effective means of converting large raw data sets into value for professionals in the design, construction and operations of buildings. The literature developed due to this convergence has rapidly increased in recent years, making it difficult for traditional review approaches to cover all related papers. Therefore, this paper applies a natural language processing (NLP) method to provide an exhaustive and quantitative review.Approximately 30,000 scientific publications were retrieved from the Elsevier API to extract the relationship between data sources, data science techniques, and building energy efficiency applications across the life cycle of buildings. 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subjects	Building energy efficiency Buildings Built environment Construction Data mining Data science Design Energy conversion efficiency Energy efficiency Fault detection Fault diagnosis Generative adversarial networks Green buildings Life cycle analysis Life cycles Literature reviews Natural language processing Reference mining Reviews Scientific papers Transfer learning Urban environments Word embeddings
title	Data science for building energy efficiency: A comprehensive text-mining driven review of scientific literature
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