Random effect generalized linear model-based predictive modelling of traffic noise.

Suman Mann, Gyanendra Singh

Environmental monitoring and assessment 2024 Jan 18

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Noise pollution is one of the negative consequences of growth and development in cities. Traffic noise pollution due to traffic growth is the main aspect that worsens city quality of life. Therefore, research around the world is being conducted to manage and reduce traffic noise. A number of traffic noise prediction models have been proposed employing fixed effect modelling approach considering each observation as independent; however, observations may have spatial and temporal correlations and unobserved heterogeneity. Random effect models overcome these problems. This study attempts to develop a random effect generalized linear model (REGLM) along with a machine learning random forest (RF) model to validate the results, concerning the parameters related to road, traffic and environmental conditions. Models were developed based on the experimental quantities in Delhi in year 2022-2023. Both the models performed comparably well in terms of coefficient of determination. Random forest models with R2= 0.75, whereas random effect generalized linear model had an R2= 0.70. REGLM model has the ability to quantify the effects of explanatory variables over traffic noise pollution and will be more helpful in prioritizing of resources and chalking out control strategies. © 2024. The Author(s), under exclusive licence to Springer Nature Switzerland AG.

Citation

Suman Mann, Gyanendra Singh. Random effect generalized linear model-based predictive modelling of traffic noise. Environmental monitoring and assessment. 2024 Jan 18;196(2):168