TY - GEN
T1 - An approach to represent air quality in 3D digital city models for air quality-related transport planning in urban areas
AU - Zahran, El Said M.
AU - Bennett, Lloyd D.
AU - Smith, Martin J.
N1 - Publisher Copyright:
© 2018 Esprit. All rights reserved.
PY - 2019
Y1 - 2019
N2 - The negative impacts of urban traffic growth are well known: congestion, increased air pollution, more traffic noise, etc. Humans most easily appreciate what their senses can directly sense; they can readily see, and even hear, traffic congestion, and can hear traffic noise, but inevitably they are much less aware of odourless, invisible, silent air pollution. Therefore, quite naturally, people - whether the general public or transport professionals - struggle to visualise air pollution from traffic, and will find it particularly difficult to visualise changes in air pollution levels resulting from changes in traffic conditions due to the implementation of urban transport schemes. Hence there is always a risk of the air quality impacts of potential urban transport schemes being under-appreciated. Using a specific area of the UK city of Nottingham as a case study, research has been undertaken to integrate an air pollution dispersion model for the pollutant NO2 and a 3D digital city model of the case study area, and then to represent the modelled NO2 concentrations at various heights above the ground as, firstly, a 3D point array, and then, secondly, as 3D volumetric clouds, using the analogy of people's perceptions of grey clouds in the sky as representing undesirable weather.
AB - The negative impacts of urban traffic growth are well known: congestion, increased air pollution, more traffic noise, etc. Humans most easily appreciate what their senses can directly sense; they can readily see, and even hear, traffic congestion, and can hear traffic noise, but inevitably they are much less aware of odourless, invisible, silent air pollution. Therefore, quite naturally, people - whether the general public or transport professionals - struggle to visualise air pollution from traffic, and will find it particularly difficult to visualise changes in air pollution levels resulting from changes in traffic conditions due to the implementation of urban transport schemes. Hence there is always a risk of the air quality impacts of potential urban transport schemes being under-appreciated. Using a specific area of the UK city of Nottingham as a case study, research has been undertaken to integrate an air pollution dispersion model for the pollutant NO2 and a 3D digital city model of the case study area, and then to represent the modelled NO2 concentrations at various heights above the ground as, firstly, a 3D point array, and then, secondly, as 3D volumetric clouds, using the analogy of people's perceptions of grey clouds in the sky as representing undesirable weather.
KW - 3D city models
KW - Air pollution modelling
KW - Interface
KW - Transport schemes
UR - http://www.scopus.com/inward/record.url?scp=85083945732&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:85083945732
T3 - EG-ICE 2010 - 17th International Workshop on Intelligent Computing in Engineering
BT - EG-ICE 2010 - 17th International Workshop on Intelligent Computing in Engineering
A2 - Tizani, Walid
PB - Nottingham
T2 - 17th International Workshop on Intelligent Computing in Engineering, EG-ICE 2010
Y2 - 30 June 2010 through 2 July 2010
ER -
