PERFORMANCE ASSESSMENT OF SPATIAL INTERPOLATIONS FOR TRAFFIC NOISE MAPPING ON UNDULATING AND LEVEL TERRAIN

Traffic noise mapping frequently employs Kriging, Inverse Distance Weighted (IDW), and Triangular Irregular Networks (TIN) spatial interpolations. This study uses the Henk de Kluijver noise model to evaluate the performance of spatial interpolations. Effective traffic noise mapping requires that noi...

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Bibliographic Details
Published inGeodesy and cartography (Vilnius) Vol. 50; no. 1; pp. 35 - 42
Main Authors Wickramathilaka, Nevil, Ujang, Uznir, Azri, Suhaibah, Choon, Tan Liat
Format Journal Article
LanguageEnglish
Published Vilnius Vilnius Gediminas Technical University 01.04.2024
Subjects
Accuracy
accuracy validation
IDW
Interpolation
Kriging
Mapping
Noise
Noise barriers
Noise levels
noise observation points
Performance assessment
Performance evaluation
Performance testing
Terrain
TIN
Traffic
Transportation noise
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Summary:Traffic noise mapping frequently employs Kriging, Inverse Distance Weighted (IDW), and Triangular Irregular Networks (TIN) spatial interpolations. This study uses the Henk de Kluijver noise model to evaluate the performance of spatial interpolations. Effective traffic noise mapping requires that noise observation points (Nops) be designed as 2 m grids. The upper and lower slopes function as noise barriers to reduce sound levels. Therefore, assessment of accuracy is essential for visualising noise levels in undulating and level terrain. In addition, this work gives an accurate comparison of traffic noise interpolation in undulating areas. The elements of spatial interpolations, such as the weighting factor, variogram, radius, and number of points influence the interpolation accuracy. The Kriging with a Gaussian variogram, where the radius is 5 m and the number of points is 12 demonstrates the highest level of precision. However, there is no direct relationship between accuracy validation and cross-validation. In cross-validation, however, the accuracy of the Gaussian variogram with a 7 m radius and 18 points is more accurate. In addition, this study demonstrates that Kriging is superior for extrapolating noise levels in undulating regions. Accurate visualising traffic noise levels requires a prior understanding of spatial interpolations.
ISSN:2029-6991
2029-7009
DOI:10.3846/gac.2024.18751