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Urban background noise mapping: the general model

Weigang Wei, Dick Botteldooren UGent, Timothy Van Renterghem UGent, Maarten Hornikx, Jens Forssen, Erik Salomons and Mikael Ögren (2014) ACTA ACUSTICA UNITED WITH ACUSTICA. 100(6). p.1098-1111
abstract
Surveys show that inhabitants of dwellings exposed to high noise levels benefit from having access to a quiet side. However, current practice in noise prediction often underestimates the noise levels at a shielded facade. Multiple reflections between facades in street canyons and inner yards are commonly neglected and facades are approximated as perfectly flat surfaces yielding only specular reflection. In addition, sources at distances much larger than normally taken into account in noise maps might still contribute significantly. Since one of the main reasons for this is computational burden, an efficient engineering model for the diffraction of the sound over the roof tops is proposed, which considers multiple reflections, variation in building height, canyon width, facade roughness and different roof shapes. The model is fitted on an extensive set of full-wave numerical calculations of canyon-to-canyon sound propagation with configurations matching the distribution of streets and building geometries in a typical historically grown European city. This model allows calculating the background noise in the shielded areas of a city, which could then efficiently be used to improve existing noise mapping calculations. The model was validated by comparison to long-term measurements at 9 building facades whereof 3 were at inner yards in the city of Ghent, Belgium. At shielded facades, a strong improvement in prediction accuracy is obtained.
Please use this url to cite or link to this publication:
author
organization
year
type
journalArticle (original)
publication status
published
subject
keyword
OUTDOOR SOUND-PROPAGATION, EQUIVALENT SOURCES APPROACH, ROAD TRAFFIC NOISE, FDTD-PE MODEL, CITY CANYONS, SCALE-MODEL, DIFFRACTION, FACADE, REFLECTIONS, SIMULATION
journal title
ACTA ACUSTICA UNITED WITH ACUSTICA
Acta Acust. United Acust.
volume
100
issue
6
pages
1098 - 1111
Web of Science type
Article
Web of Science id
000343742800010
JCR category
ACOUSTICS
JCR impact factor
0.783 (2014)
JCR rank
19/31 (2014)
JCR quartile
3 (2014)
ISSN
1610-1928
DOI
10.3813/AAA.918789
language
English
UGent publication?
yes
classification
A1
copyright statement
I have transferred the copyright for this publication to the publisher
id
5790066
handle
http://hdl.handle.net/1854/LU-5790066
date created
2014-12-23 15:03:22
date last changed
2016-12-19 15:41:32
@article{5790066,
  abstract     = {Surveys show that inhabitants of dwellings exposed to high noise levels benefit from having access to a quiet side. However, current practice in noise prediction often underestimates the noise levels at a shielded facade. Multiple reflections between facades in street canyons and inner yards are commonly neglected and facades are approximated as perfectly flat surfaces yielding only specular reflection. In addition, sources at distances much larger than normally taken into account in noise maps might still contribute significantly. Since one of the main reasons for this is computational burden, an efficient engineering model for the diffraction of the sound over the roof tops is proposed, which considers multiple reflections, variation in building height, canyon width, facade roughness and different roof shapes. The model is fitted on an extensive set of full-wave numerical calculations of canyon-to-canyon sound propagation with configurations matching the distribution of streets and building geometries in a typical historically grown European city. This model allows calculating the background noise in the shielded areas of a city, which could then efficiently be used to improve existing noise mapping calculations. The model was validated by comparison to long-term measurements at 9 building facades whereof 3 were at inner yards in the city of Ghent, Belgium. At shielded facades, a strong improvement in prediction accuracy is obtained.},
  author       = {Wei, Weigang and Botteldooren, Dick and Van Renterghem, Timothy and Hornikx, Maarten and Forssen, Jens and Salomons, Erik and {\"O}gren, Mikael},
  issn         = {1610-1928},
  journal      = {ACTA ACUSTICA UNITED WITH ACUSTICA},
  keyword      = {OUTDOOR SOUND-PROPAGATION,EQUIVALENT SOURCES APPROACH,ROAD TRAFFIC NOISE,FDTD-PE MODEL,CITY CANYONS,SCALE-MODEL,DIFFRACTION,FACADE,REFLECTIONS,SIMULATION},
  language     = {eng},
  number       = {6},
  pages        = {1098--1111},
  title        = {Urban background noise mapping: the general model},
  url          = {http://dx.doi.org/10.3813/AAA.918789},
  volume       = {100},
  year         = {2014},
}

Chicago
Wei, Weigang, Dick Botteldooren, Timothy Van Renterghem, Maarten Hornikx, Jens Forssen, Erik Salomons, and Mikael Ögren. 2014. “Urban Background Noise Mapping: The General Model.” Acta Acustica United with Acustica 100 (6): 1098–1111.
APA
Wei, W., Botteldooren, D., Van Renterghem, T., Hornikx, M., Forssen, J., Salomons, E., & Ögren, M. (2014). Urban background noise mapping: the general model. ACTA ACUSTICA UNITED WITH ACUSTICA, 100(6), 1098–1111.
Vancouver
1.
Wei W, Botteldooren D, Van Renterghem T, Hornikx M, Forssen J, Salomons E, et al. Urban background noise mapping: the general model. ACTA ACUSTICA UNITED WITH ACUSTICA. 2014;100(6):1098–111.
MLA
Wei, Weigang, Dick Botteldooren, Timothy Van Renterghem, et al. “Urban Background Noise Mapping: The General Model.” ACTA ACUSTICA UNITED WITH ACUSTICA 100.6 (2014): 1098–1111. Print.