## A Measurement-based Statistical Model to Evaluate Uncertainty in Long-range Noise Assessments

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**A Measurement-based Statistical Model to Evaluate Uncertainty in Long-range Noise Assessments.** / Maijala, Panu.

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*A Measurement-based Statistical Model to Evaluate Uncertainty in Long-range Noise Assessments*. VTT Science, Vuosikerta. 48, VTT.

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*A Measurement-based Statistical Model to Evaluate Uncertainty in Long-range Noise Assessments*. (VTT Science; Vuosikerta 48). VTT.

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TY - BOOK

T1 - A Measurement-based Statistical Model to Evaluate Uncertainty in Long-range Noise Assessments

AU - Maijala, Panu

N1 - Awarding institution:Tampereen teknillinen yliopisto - Tampere University of Technology<br/>Submitter:Submitted by Kaisa Kulkki (kaisa.kulkki@tut.fi) on 2013-12-18T08:26:49Z No. of bitstreams: 1 maijala.pdf: 8876096 bytes, checksum: a9348271868d9cc37d85ecf3800e67ff (MD5)<br/>Submitter:Approved for entry into archive by Kaisa Kulkki (kaisa.kulkki@tut.fi) on 2013-12-18T09:39:44Z (GMT) No. of bitstreams: 1 maijala.pdf: 8876096 bytes, checksum: a9348271868d9cc37d85ecf3800e67ff (MD5)<br/>Submitter:Made available in DSpace on 2013-12-18T09:39:44Z (GMT). No. of bitstreams: 1 maijala.pdf: 8876096 bytes, checksum: a9348271868d9cc37d85ecf3800e67ff (MD5)

PY - 2014/1/3

Y1 - 2014/1/3

N2 - Carefully validated long-range sound propagation measurements with extensive meteorological instrumentation were continued for 612 days without interruption, around the clock, resulting in a database with millions of files, terabytes of sound and environmental data, and hundreds of pages of documentation. More than 100 environmental variables were analysed by statistical means, and many statistically highly significant dependencies linked to excess attenuation were found. At a distance of 3 km from the source, excess attenuation was spread over a dynamic range of 80 dB, with differences of 10 dB between individual quarters of the year; also, negative excess attenuation at frequencies below 400 Hz existed. The low frequencies were affected mainly by the stability characteristics of the atmosphere and the lapse rate. Humidity; lapse rate; sensible heat flux; and longitudinal, transverse, and vertical turbulence intensities explain excess attenuation at higher frequencies to a statistically highly significant extent. Through application of a wide range of regression analyses, a set of criteria for frequency-dependent uncertainty in sound propagation was created. These criteria were incorporated into a software module, which, together with a state-of-the-art physical sound propagation calculation module, makes it possible to perform environmental noise assessments with known uncertainty. This approach can be applied to the short term measurements too and it was shown that some of the most complex meteorological variables, among them atmospheric turbulence, can be taken into account. Comparison with two standardized noise modelling methods showed that the statistical model covers well a range of uncertainty not matched with the standardized methods and the measured excess attenuation fit within the limits of predicted uncertainty.

AB - Carefully validated long-range sound propagation measurements with extensive meteorological instrumentation were continued for 612 days without interruption, around the clock, resulting in a database with millions of files, terabytes of sound and environmental data, and hundreds of pages of documentation. More than 100 environmental variables were analysed by statistical means, and many statistically highly significant dependencies linked to excess attenuation were found. At a distance of 3 km from the source, excess attenuation was spread over a dynamic range of 80 dB, with differences of 10 dB between individual quarters of the year; also, negative excess attenuation at frequencies below 400 Hz existed. The low frequencies were affected mainly by the stability characteristics of the atmosphere and the lapse rate. Humidity; lapse rate; sensible heat flux; and longitudinal, transverse, and vertical turbulence intensities explain excess attenuation at higher frequencies to a statistically highly significant extent. Through application of a wide range of regression analyses, a set of criteria for frequency-dependent uncertainty in sound propagation was created. These criteria were incorporated into a software module, which, together with a state-of-the-art physical sound propagation calculation module, makes it possible to perform environmental noise assessments with known uncertainty. This approach can be applied to the short term measurements too and it was shown that some of the most complex meteorological variables, among them atmospheric turbulence, can be taken into account. Comparison with two standardized noise modelling methods showed that the statistical model covers well a range of uncertainty not matched with the standardized methods and the measured excess attenuation fit within the limits of predicted uncertainty.

M3 - Doctoral thesis

SN - 978-951-38-8109-2

T3 - VTT Science

BT - A Measurement-based Statistical Model to Evaluate Uncertainty in Long-range Noise Assessments

PB - VTT

ER -