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A Probabilistic approach for Modelling of Noise from Construction Sites

Zaiton Haron, and Oldham, David, and Khairulzan Yahya, and Rozana Zakaria, (2008) A Probabilistic approach for Modelling of Noise from Construction Sites. Malaysian Journal of Civil Engineering, 20 (1). pp. 58-72. (In Press)

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Official URL: http://web.utm.my/ipasa/images/stories/MJCE/2008/vol_20_no_1/June%206%20-Zaiton%201.pdf

Affiliations

Universiti Teknologi Malaysia. Faculty of Civil Engineering. Construction Technology and Management Centre
Liverpool University, UK. Acoustic Research Unit
Universiti Teknologi Malaysia. Faculty of Civil Engineering. Construction Technology and Management Centre
Universiti Teknologi Malaysia. Faculty of Civil Engineering. Construction Technology and Management Centre

Abstract

This paper presents a new technique for predicting noise from construction site using probabilistic approach. The advantage of the method is its ability to predict a set of noise levels during a working day period weighted by their probabilities of cumulative distribution or temporal distribution. This method has introduced different degree of noises according to different indices such as L10, L50 and L90. The indices could be used to avoid the annoyance due to construction activities and the complaints from nearby residents during construction activities. The temporal distribution of the model could be applied to predict the equivalent continuous sound level (LAeq)
experienced over a short period as commonly practiced by the local authority staff when checking for conformance with a specified level during the construction process. The method could be used as the basis of an operational management tool for noise abatement scheme towards maintaining a more sustainable environment.

Item Type:Journal
Additional Information:The authors would like to appreciate to Ministry of Science, Technology and Innovation Malaysia (MOSTI) and Universiti Teknologi Malaysia (UTM) for the sponsorship of theresearch.
Keywords:Prediction of noise, Probability, Temporal distribution, Noise annoyance, Equivalent noise level
Subjects:T Technology, Engineering
ID Code:6426

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