An amalgamation of 3D city models in Urban air quality modelling for improving visual impact analysis

Geographical Information Systems (GISs) can be seen as a common tool to map and visualize the air quality index based on geographical locations. However, in urban areas, the area resolution for air quality models is less than 2 kilometres. Since the main emissions agent in urban areas is predominant...

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Main Authors: Ujang, U., Anton, F., Ariffin, A., Mioc, D., Azri, S.
Format: Article
Language:English
Published: WITPress 2015
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Online Access:http://eprints.utm.my/id/eprint/59135/1/UUjang2015_AnAmalgamationOf3DCityModels.pdf
http://eprints.utm.my/id/eprint/59135/
http://dx.doi.org/10.2495/AIR150051
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Institution: Universiti Teknologi Malaysia
Language: English
id my.utm.59135
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spelling my.utm.591352021-09-09T01:06:48Z http://eprints.utm.my/id/eprint/59135/ An amalgamation of 3D city models in Urban air quality modelling for improving visual impact analysis Ujang, U. Anton, F. Ariffin, A. Mioc, D. Azri, S. HB Economic Theory HD Industries. Land use. Labor Geographical Information Systems (GISs) can be seen as a common tool to map and visualize the air quality index based on geographical locations. However, in urban areas, the area resolution for air quality models is less than 2 kilometres. Since the main emissions agent in urban areas is predominantly vehicular engines, the situation will become worse when pollutants are trapped between buildings and disperse inside the street canyon and move vertically to create a recirculation vortex. Studying and visualizing the recirculation zone in 3D visualization is conceivable by using 3D city models as physical data input. The Level of Details (LoD) in 3D city models (i.e. LoD1 and LoD2) ascertains the potentials of implementing air quality modelling for urban areas. Therefore, this research is focused towards investigating the integration of 3D city models in air quality modelling for urban areas. The results presented show the simplicity of using 3D city models as a physical data input in air quality modelling and the 3D air quality will improve insight for visual impact analysis (i.e. analysing the immersion of a recirculation zone). The results are advantageous for city planners, architects, engineers and policy makers to design the street geometry (building height and width, green areas, pedestrian walks, roads width, etc.). WITPress 2015-06-01 Article PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/59135/1/UUjang2015_AnAmalgamationOf3DCityModels.pdf Ujang, U. and Anton, F. and Ariffin, A. and Mioc, D. and Azri, S. (2015) An amalgamation of 3D city models in Urban air quality modelling for improving visual impact analysis. WIT Transactions on Ecology and the Environment, 198 . pp. 51-61. ISSN 1743-3541 http://dx.doi.org/10.2495/AIR150051 DOI:10.2495/AIR150051
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
language English
topic HB Economic Theory
HD Industries. Land use. Labor
spellingShingle HB Economic Theory
HD Industries. Land use. Labor
Ujang, U.
Anton, F.
Ariffin, A.
Mioc, D.
Azri, S.
An amalgamation of 3D city models in Urban air quality modelling for improving visual impact analysis
description Geographical Information Systems (GISs) can be seen as a common tool to map and visualize the air quality index based on geographical locations. However, in urban areas, the area resolution for air quality models is less than 2 kilometres. Since the main emissions agent in urban areas is predominantly vehicular engines, the situation will become worse when pollutants are trapped between buildings and disperse inside the street canyon and move vertically to create a recirculation vortex. Studying and visualizing the recirculation zone in 3D visualization is conceivable by using 3D city models as physical data input. The Level of Details (LoD) in 3D city models (i.e. LoD1 and LoD2) ascertains the potentials of implementing air quality modelling for urban areas. Therefore, this research is focused towards investigating the integration of 3D city models in air quality modelling for urban areas. The results presented show the simplicity of using 3D city models as a physical data input in air quality modelling and the 3D air quality will improve insight for visual impact analysis (i.e. analysing the immersion of a recirculation zone). The results are advantageous for city planners, architects, engineers and policy makers to design the street geometry (building height and width, green areas, pedestrian walks, roads width, etc.).
format Article
author Ujang, U.
Anton, F.
Ariffin, A.
Mioc, D.
Azri, S.
author_facet Ujang, U.
Anton, F.
Ariffin, A.
Mioc, D.
Azri, S.
author_sort Ujang, U.
title An amalgamation of 3D city models in Urban air quality modelling for improving visual impact analysis
title_short An amalgamation of 3D city models in Urban air quality modelling for improving visual impact analysis
title_full An amalgamation of 3D city models in Urban air quality modelling for improving visual impact analysis
title_fullStr An amalgamation of 3D city models in Urban air quality modelling for improving visual impact analysis
title_full_unstemmed An amalgamation of 3D city models in Urban air quality modelling for improving visual impact analysis
title_sort amalgamation of 3d city models in urban air quality modelling for improving visual impact analysis
publisher WITPress
publishDate 2015
url http://eprints.utm.my/id/eprint/59135/1/UUjang2015_AnAmalgamationOf3DCityModels.pdf
http://eprints.utm.my/id/eprint/59135/
http://dx.doi.org/10.2495/AIR150051
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