Information modelling for urban building energy simulation—A taxonomic review

Avichal Malhotra; Julian Bischof; Alexandru Nichersu; Karl Heinz Häfele; Johannes Exenberger; Divyanshu Sood; James Allan; Jérôme Frisch; Christoph van Treeck; James O'Donnell; Gerald Schweiger

doi:10.1016/j.buildenv.2021.108552

Information modelling for urban building energy simulation—A taxonomic review

Avichal Malhotra, Julian Bischof, Alexandru Nichersu, Karl Heinz Häfele, Johannes Exenberger, Divyanshu Sood, James Allan, Jérôme Frisch, Christoph van Treeck, James O'Donnell, Gerald Schweiger^*

^*Korrespondierende/r Autor/-in für diese Arbeit

Institut für Softwaretechnologie (7160)

Publikation: Beitrag in einer Fachzeitschrift › Review eines Fachbereichs (Review article) › Begutachtung

Abstract

Climate change, increasing emissions and rising global temperatures have gradually affected the way we think about the future of our planet. Urban areas possess significant potential for reducing the energy consumption of the overall energy system. In recent years, there is an increasing number of research initiatives related to Urban Building Energy Modelling (UBEM) that focus on simulation processes and validation techniques. Although input data are crucial for the modelling process as well as for the validity of the results, the availability of input data and associated data formats were not analysed in detail. This paper closes the identified knowledge gap by presenting a taxonomic analysis of key UBEM components including: input data formats, simulation tools, simulation results and validation techniques. This paper concludes that over ∼95% of the studies analysed were not reproducible due to the absence of information relating to key aspects of the respective methodologies such as data sources and simulation workflows. This paper also qualifies how weak levels of interoperability, with respect to input and output data, is present in all phases of UBEM.

Originalsprache	englisch
Aufsatznummer	108552
Fachzeitschrift	Building and Environment
Jahrgang	208
DOIs	https://doi.org/10.1016/j.buildenv.2021.108552
Publikationsstatus	Veröffentlicht - 15 Jan. 2022

ASJC Scopus subject areas

Environmental engineering
Tief- und Ingenieurbau
Geografie, Planung und Entwicklung
Bauwesen

UN SDGs

Dieser Output leistet einen Beitrag zu folgendem(n) Ziel(en) für nachhaltige Entwicklung

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abstract = "Climate change, increasing emissions and rising global temperatures have gradually affected the way we think about the future of our planet. Urban areas possess significant potential for reducing the energy consumption of the overall energy system. In recent years, there is an increasing number of research initiatives related to Urban Building Energy Modelling (UBEM) that focus on simulation processes and validation techniques. Although input data are crucial for the modelling process as well as for the validity of the results, the availability of input data and associated data formats were not analysed in detail. This paper closes the identified knowledge gap by presenting a taxonomic analysis of key UBEM components including: input data formats, simulation tools, simulation results and validation techniques. This paper concludes that over ∼95% of the studies analysed were not reproducible due to the absence of information relating to key aspects of the respective methodologies such as data sources and simulation workflows. This paper also qualifies how weak levels of interoperability, with respect to input and output data, is present in all phases of UBEM.",

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doi = "10.1016/j.buildenv.2021.108552",

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AU - Malhotra, Avichal

AU - Bischof, Julian

AU - Nichersu, Alexandru

AU - Häfele, Karl Heinz

AU - Exenberger, Johannes

AU - Sood, Divyanshu

AU - Allan, James

AU - Frisch, Jérôme

AU - van Treeck, Christoph

AU - O'Donnell, James

AU - Schweiger, Gerald

PY - 2022/1/15

Y1 - 2022/1/15

N2 - Climate change, increasing emissions and rising global temperatures have gradually affected the way we think about the future of our planet. Urban areas possess significant potential for reducing the energy consumption of the overall energy system. In recent years, there is an increasing number of research initiatives related to Urban Building Energy Modelling (UBEM) that focus on simulation processes and validation techniques. Although input data are crucial for the modelling process as well as for the validity of the results, the availability of input data and associated data formats were not analysed in detail. This paper closes the identified knowledge gap by presenting a taxonomic analysis of key UBEM components including: input data formats, simulation tools, simulation results and validation techniques. This paper concludes that over ∼95% of the studies analysed were not reproducible due to the absence of information relating to key aspects of the respective methodologies such as data sources and simulation workflows. This paper also qualifies how weak levels of interoperability, with respect to input and output data, is present in all phases of UBEM.

AB - Climate change, increasing emissions and rising global temperatures have gradually affected the way we think about the future of our planet. Urban areas possess significant potential for reducing the energy consumption of the overall energy system. In recent years, there is an increasing number of research initiatives related to Urban Building Energy Modelling (UBEM) that focus on simulation processes and validation techniques. Although input data are crucial for the modelling process as well as for the validity of the results, the availability of input data and associated data formats were not analysed in detail. This paper closes the identified knowledge gap by presenting a taxonomic analysis of key UBEM components including: input data formats, simulation tools, simulation results and validation techniques. This paper concludes that over ∼95% of the studies analysed were not reproducible due to the absence of information relating to key aspects of the respective methodologies such as data sources and simulation workflows. This paper also qualifies how weak levels of interoperability, with respect to input and output data, is present in all phases of UBEM.

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KW - Interoperability

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KW - Taxonomic review

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KW - Urban scale physics-based thermal simulation

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JO - Building and Environment

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Information modelling for urban building energy simulation—A taxonomic review

Abstract

ASJC Scopus subject areas

UN SDGs

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