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Main Authors: Helbic, Marco, Hagenauer, Julian, Burov, Angel, Dzhambov, Angel M.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2501.14437
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author Helbic, Marco
Hagenauer, Julian
Burov, Angel
Dzhambov, Angel M.
author_facet Helbic, Marco
Hagenauer, Julian
Burov, Angel
Dzhambov, Angel M.
contents Fine-grained noise maps are vital for epidemiological studies on traffic noise. However, detailed information on traffic noise is often limited, especially in Eastern Europe. Rigid linear noise land-use regressions are typically employed to estimate noise levels; however, machine learning likely offers more accurate noise predictions. We innovated by comparing the predictive accuracies of supervised machine learning models to estimate traffic noise levels across the five largest Bulgarian cities. In situ A-weighted equivalent continuous sound levels were obtained from 232 fixed-site monitors across these cities. We included transport- and land-use-related predictors using 50-1,000 m buffers. Extreme gradient boosting (XGB) had the highest ten-fold cross-validated fit (R2=0.680) and the lowest root mean square error (RMSE=4.739), insignificantly besting the random forest-based model (R2=0.667, RMSE=4.895). Support vector regression (R2=0.633, RMSE=5.358), elastic net (R2=0.568, RMSE=5.625), and linear regression (R2=0.548, RMSE=5.569) performed significantly worse. Shapley values for the XGB showed that the length of major roads within 100 m buffers, footways within 50 m buffers, residential roads within 50 m buffers, and the number of buildings within 50 m buffers were important non-linear predictors. Our spatially resolved noise maps revealed striking geographic noise variations and that, on average, 96.8% of the urban population experiences harmful noise levels.
format Preprint
id arxiv_https___arxiv_org_abs_2501_14437
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Traffic noise assessment in urban Bulgaria using explainable machine learning
Helbic, Marco
Hagenauer, Julian
Burov, Angel
Dzhambov, Angel M.
Applications
Fine-grained noise maps are vital for epidemiological studies on traffic noise. However, detailed information on traffic noise is often limited, especially in Eastern Europe. Rigid linear noise land-use regressions are typically employed to estimate noise levels; however, machine learning likely offers more accurate noise predictions. We innovated by comparing the predictive accuracies of supervised machine learning models to estimate traffic noise levels across the five largest Bulgarian cities. In situ A-weighted equivalent continuous sound levels were obtained from 232 fixed-site monitors across these cities. We included transport- and land-use-related predictors using 50-1,000 m buffers. Extreme gradient boosting (XGB) had the highest ten-fold cross-validated fit (R2=0.680) and the lowest root mean square error (RMSE=4.739), insignificantly besting the random forest-based model (R2=0.667, RMSE=4.895). Support vector regression (R2=0.633, RMSE=5.358), elastic net (R2=0.568, RMSE=5.625), and linear regression (R2=0.548, RMSE=5.569) performed significantly worse. Shapley values for the XGB showed that the length of major roads within 100 m buffers, footways within 50 m buffers, residential roads within 50 m buffers, and the number of buildings within 50 m buffers were important non-linear predictors. Our spatially resolved noise maps revealed striking geographic noise variations and that, on average, 96.8% of the urban population experiences harmful noise levels.
title Traffic noise assessment in urban Bulgaria using explainable machine learning
topic Applications
url https://arxiv.org/abs/2501.14437