Machine-Learning Based Fault Diagnosis of Electrical Motors Using Acoustic Signals

The workplace contributes significantly to the total dose of daily noise to which a person is subjected. Therefore, millions of people around the world are exposed to potentially dangerous noise levels and consequently, there is an urgent, global need for legislation to adequately protect the auditory health of workers. Occupational noise legislation has been adopted in many of the countries with different degrees of comprehensiveness and varying levels of sophistication. This paper presents a global view of current legislation on occupational noise in the 22 countries that make up the Americas, that is, Latin America, Canada, and the United States. Upon analysis of the legislation, there are notable differences among countries in the defined values for permissible exposure limit (PEL) and exchange rate. Of the countries that have regulations, the majority (81%) use a PEL of 85 dBA. A PEL of 85 dBA and the 3-dB exchange rate are currently used by 32% of the nations in the Americas. Most nations limit impulsive noise exposure to a peak unweighted sound pressure level of 140 dB (or dBC), while a few use slightly lower limits. However, 27% of the countries in the region still have not established regulations with respect to permissible noise levels and exchange rates. This fact is leaving millions of workers in the Americas unprotected against occupational noise. Provide an overview and analysis of the current legislation on occupational noise in the 22 countries that make up the Americas. The information on legislation, regulations, and standards discussed in this paper were obtained directly from official government sources in each country, the International Labour Organization database, or through various colleagues in each country. (1) There are notable differences among countries in the defined values for PEL and exchange rate. (2) Of the countries that have regulations, the majority (81%) use a PEL of 85 dBA. A PEL of 85 dBA and the 3-dB exchange rate are currently used by 32% of the nations in the Americas. (3) Most nations limit impulsive noise exposure to a peak unweighted sound pressure level of 140 dB (or dBC), while a few use slightly lower limits. (4) 27% of the countries in the region still have not established regulations with respect to permissible noise levels and exchange rates. (5) Millions of workers in the Americas are unprotected against occupational noise.

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An empirical modelling of porous sound absorbing materials made of recycled foam

Tormos

Fernández

Arenas

et al. 2012

Applied Acoustics

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Study of the mechanical behavior of asphalt mixtures using fractional rheology to model their viscoelasticity

Lagos-Varas¹,

Movilla-Quesada²,

Arenas

et al. 2019

Construction and Building Materials

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A Green Soundscape Index (GSI): The potential of assessing the perceived balance between natural sound and traffic noise

Kogan

Arenas

Bermejo

et al. 2018

Science of The Total Environment

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Numerical Computation of the Sound Radiation From a Planar Baffled Vibrating Surface

Arenas

2008

J. Comp. Acous.

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The sound power radiated by a plane vibrating structure can be calculated by numerical integration of the Rayleigh integral or by means of finite and boundary element methods. However, these methods are usually time-consuming due to the numerical evaluation of surface integrals. This paper reviews and discusses an alternative numerical method (the lumped parameter model) to compute the sound radiation from planar structures which is based just on surface velocity information and a direct numerical evaluation of the radiation resistance matrix of the structure. As an example, the technique is applied to estimate the sound radiated from the structural axisymmetric modes of both clamped and simply-supported circular baffled plates.

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Potential problems with environmental sound barriers when used in mitigating surface transportation noise

Arenas

2008

Science of The Total Environment

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A comprehensive methodology for the multidimensional and synchronic data collecting in soundscape

Kogan

Turra

Arenas

et al. 2017

Science of The Total Environment

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Jorge P. Arenas

Muffler modeling by transfer matrix method and experimental verification

Comparison of occupational noise legislation in the Americas: An overview and analysis

An empirical modelling of porous sound absorbing materials made of recycled foam

Study of the mechanical behavior of asphalt mixtures using fractional rheology to model their viscoelasticity

A Green Soundscape Index (GSI): The potential of assessing the perceived balance between natural sound and traffic noise

Numerical Computation of the Sound Radiation From a Planar Baffled Vibrating Surface

Potential problems with environmental sound barriers when used in mitigating surface transportation noise

A comprehensive methodology for the multidimensional and synchronic data collecting in soundscape

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