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Objectives: This was a single-subject study, aimed to demonstrate different vocal demand situations that are typical for primary school and teacher's vocal demand response under two acoustical conditions, with and without voice amplification, during five working days. Methods: The long-term voice dosimetry with Vocal Holter Med (PR.O. Voice Srl) was carried out on a 49-year-old female teacher with voice disorders during daily teaching activities. A sound field amplification system (SFAS) PentaClass Runa was installed in the classroom. Voice dosimetry was provided under two different acoustical conditions: without SFAS (2 days) and with SFAS (3 days). Results: Phonation time percentage, sound pressure level (SPL), SPL SD, fundamental frequency (F0), F0 SD, cycle, and distance doses were investigated in seven communication scenarios (lessons, group/individual classes, sports lessons in the gym and schoolyard, breaks, lunch breaks, and other activities). The median scores of all voice parameters differed significantly between different vocal demand contexts. The significant statistical difference in the vocal demand response was in the communication situations with and without SFAS. In addition, the number of children, reverberation time, and ambient air relative humidity impacted voice SPL and the cycle dose. Conclusions: Lessons, sports lessons held in the gym or schoolyard, breaks, and lunch breaks were considered as high vocal demand communication situations requiring higher voice intensity and fundamental frequency, higher phonation time percentage, cycle, and distance doses. Group/individual work and other teacher activities during the day, unrelated to direct work with students, were categorized as low vocal demand communication scenarios.
Objetivos: Este fue un estudio de sujeto único, cuyo objetivo fue demostrar diferentes situaciones de demanda vocal típicas de la escuela primaria y la respuesta vocal de los docentes bajo dos condiciones acústicas, con y sin amplificación de voz, durante cinco días laborables. Métodos: Se llevó a cabo dosimetría vocal a largo plazo con Vocal Holter Med (PR.O. Voice Srl) durante las actividades diarias de enseñanza en una docente de 49 años con trastornos de la voz. Se instaló un sistema de amplificación de campo sonoro (SFAS) PentaClass Runa en el aula. La dosimetría vocal se realizó bajo dos condiciones acústicas diferentes: sin SFAS (2 días) y con SFAS (3 días). Resultados: Se investigaron el porcentaje de tiempo de fonación, el nivel de presión sonora (SPL), SPL SD, la frecuencia fundamental (F0), F0 SD, ciclos y dosis de distancia en siete escenarios de comunicación diferentes (clases, clases grupales/individuales, clases de educación física en el gimnasio y el patio de la escuela, recreos, almuerzos y otras actividades). Las puntuaciones medias de todos los parámetros vocales diferían significativamente entre los diferentes contextos de demanda vocal. La diferencia estadísticamente significativa en la respuesta a la demanda vocal se observó en las situaciones de comunicación con y sin SFAS. Además, el número de niños, el tiempo de reverberación y la humedad relativa del aire ambiente afectaron al SPL de la voz y la dosis de ciclo. Conclusiones: Las lecciones, las clases de educación física en el gimnasio o el patio de la escuela, los recreos y los almuerzos se consideraron situaciones de comunicación de alta demanda vocal, que requerían una mayor intensidad y frecuencia fundamental de la voz, un mayor porcentaje de tiempo de fonación y dosis de ciclo y distancia más altas. El trabajo grupal/individual y otras actividades del profesor durante el día no relacionadas con el trabajo directo con los estudiantes se categorizaron como escenarios de comunicación de baja demanda vocal.
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{L-End}Objective To analyze sound pressure level and spectrum characteristics of noise from various equipment in noise-related worksites in wooden furniture enterprises in Zhongshan City. {L-End}Methods A total of 107 wooden furniture enterprises with equipment sound pressure levels ≥85.0 dB(A) were selected as the research subjects using the judgment sampling method. Individual noise meters were used to detect the sound level and spectrum of equipment in noise-related worksites. Cluster analysis was used to analyze the noise spectrum characteristics of each noise equipment. {L-End}Results The incidence of sound pressure level exceeding the national standard of occupational exposure limits for noise in workplace among the research subjects was 60.4% (365/604). The equipment with the highest sound pressure level was the sliding table saw (rough shape cutting position) at 101.4 dB(A), while the lowest was the sanding machine (grinding position) at 85.0 dB(A). The clustering analysis results showed that the noise spectrum characteristics of nail guns, sliding table saw, edge banders, spray guns, and drilling machines were similar, with the highest sound pressure level of 4 000.0 Hz, mainly concentrating in the high-frequency. The noise spectrum characteristics of punching machines, sanding machine, lathes, and engraving machines were similar, with the highest sound pressure level ranging from 500.0 to 1 000.0 Hz, mainly concentrating in the mid-frequency. The noise spectrum characteristics of drilling machines, planers, hot press machines, and mortise and tenon machines were similar, with the highest sound pressure level ranging from 500.0 to 1 000.0 Hz, mainly concentrating in the mid- and high-frequency. The sound pressure level of the mixer reached its peak at 8 000.0 Hz, demonstrating a wide frequency domain characteristic of sound pressure level with the presence of low-, mid- and high-frequencies. {L-End}Conclusion The noise-exposed hazards of wooden furniture enterprises are relatively serious, and the spectral characteristics of the equipment with noise are distinct. It is recommended to implement targeted noise reduction measures and personal hearing protection based on the specific spectrum characteristics of equipment noise.
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Objective:To study the characteristics of breath sound spectroscopy in chronic obstructive pulmonary disease(COPD) patients with different lung function grades, to preliminarily determine the characteristic parameters and indicators of breath sound spectrograms with different lung function grades of COPD, and to explore the visualization and measurability of the differences in respiratory auscultation in patients with different lung function grades.Methods:Patients diagnosed and treated in Xinhua Hospital Affiliated to Shanghai Jiao Tong University School of Medicine Chongming Branch from October 2018 to December 2020 were selected. Fifty-two patients with COPD (22 patients with moderate to moderate obstructive ventilation dysfunction (mild to moderate group), 30 patients with severe obstructive ventilation dysfunction (severe group)) and 36 normal controls (control group) were selected. The respiratory sounds were sampled with an electronic stethoscope and transmitted to the audit audio software to calculate the relevant data of respiratory sound pressure level (SPL) and the ratio to minute ventilation (VE) of samples with different lung function grades. A retrospective case-control study was used. The data with normal distribution were analyzed by one-way ANOVA, and the pairwise comparison was performed by SNK- q test. Results:The breathing audio frequency of mild-moderate, severe COPD patients and the control group has a sound pressure difference of (-0.5±2.2) dB and (-1.6±6.1) dB, (0.7±4.0) dB, and there was significant difference between each group ( F=2.64, P=0.038). The sound pressure level per minute ventilation (SPL 50-200/VE) of respiratory sound inspiratory phase in COPD patients with mild to moderate and severe obstructive ventilation dysfunction and the control group were (5.7±1.8) dB/L, (6.1±2.3) dB/L and (5.4±0.9) dB/L, respectively. The expiratory SPL 50-200/VE were (5.8±1.7), (6.3±2.2) and (5.3±1.2) respectively. There was significant difference among the three groups ( Finhalation=3.26, P=0.048; Frespiration=2.44, P=0.045). ROC curve results showed that SPL 50-200/VE in the inspiratory phase, SPL 50-200/VE in the expiratory phase, and sound pressure difference to assess different grades of obstructive ventilatory dysfunction had diagnostic value (AUC values were 0.697, 0.725 and 0.686, respectively; and P values were 0.015, 0.005 and 0.022, respectively). In some patients with COPD, abnormally high energy levels may appear in the time-frequency diagram of breath sounds. Conclusion:There are significant differences in respiratory audio spectrum analysis between patients with different degrees of obstructive ventilation dysfunction and those with normal ventilation function, which can provide a basis for auxiliary judgment of obstructive ventilation dysfunction.
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Background Equivalent continuous A-weighted sound pressure level is not appropriate for evaluating the risk of non-steady noise exposure, and need to be corrected by noise time-domain structure, but the correction method and its applicability need to be discussed. Objective To validate the application of the kurtosis-adjusted normalization of equivalent continuous A-weighted sound pressure level to a normal 8 h working day ( LAeq,8 h) in assessing noise-induced hearing loss (NIHL), and to improve the methods for assessing occupational hearing loss associated with different types of noise. Methods Audiometric and shift-long noise exposure data were acquired from a population(n=2 466) of screened workers exposed to noise between 70 dB(A) and 95 dB(A) from 6 industries in China. The cohort data were collapsed into 1 dB(A) bins, and the average kurtosis and noise-induced permanent threshold shifts at 3 kHz, 4 kHz, and 6 kHz (NIPTS346) within 1 dB(A) were calculated respectively. According to the existing correction method, the adjustment coefficient λ was calculated by multiple regression, and LAeq,8 h was corrected by λ (L'Aeq,8 h). The entire cohort was divided into K1 (≤10; steady noise), K2 (10~50; non-steady noise), and K3 (>50; non-steady noise) groups based on mean kurtosis levels. Predicted NIPTS346 was calculated using the ISO 1999 model for each participant and the actual measured NIPTS346 was corrected for age and gender. The underestimated NIPTS346 was the difference between the values of estimated NIPTS346 and the corresponding actual NIPTS346. To validate the applicability of L′Aeq,8 h in evaluating NIHL, the correlation between L′Aeq,8 h and HFNIHL, and the mean difference between real NIPTS346 and estimated NIPTS346 were analyzed. Results The adjustment coefficient λ was determined at 5.43. The results of multiple logistic regression analysis showed that the relationship between L'Aeq,8 h and HFNIHL increased from 6.6% to 9.6% after the kurtosis adjustment. The DRR of LAeq,8 h and HFNIHL showed that the percentage of HFNIHL decreased after the adjustment of kurtosis in the non-steady noise groups, and the regression lines of the non-steady noise groups approached that of the steady noise group. The R2 of the K2 group increased from 0.935 3 to 0.986 3, and the R 2 of the K3 group increased from 0.905 6 to 0.951 6. Under the un-adjusted condition, the NIPTS346 underestimation for the K3 group was significantly higher than that for the steady noise group (t=−3.23, P=0.001). After the LAeq,8 h was adjusted by kurtosis, the NIPTS346 underestimation decreased significantly in the three kurtosis groups (K1: t=6.78, P<0.001; K2: t=14.31, P<0.001; K3: t=11.06, P<0.001). There was no significant difference in the degree of underestimation between the three kurtosis groups (K1 vs K2: t=−0.22, P=0.830; K1 vs K3: t=−1.40, P=0.205) as the curves of the three kurtosis groups were nearly overlapped. Conclusion The kurtosis-adjusted LAeq,8 h can effectively estimate the hearing loss associated with non-steady state noise.
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The existing measuring methods of noise exposure on the basis of equal energy hypothesis are applicable to Gaussian noise while not fully applicable to non-Gaussian noise. Studies have shown that temporal structure (kurtosis) combined with noise energy has the potential to quantify non-Gaussian noise exposure effectively. However, there is no unified measuring method adopting this joint metric. In this paper, the measuring method of non-Gaussian noise exposure based on kurtosis adjustment was introduced, detailing measurement indicators, adjustment schemes, applicable objects, instrument requirements, and measurement steps. Adjusting the exposure duration of cumulative noise exposure (CNE) by kurtosis or adjusting the equivalent continuous A-weighted sound pressure level (LAeq) by an adjustment coefficient based on animal or population studies can more accurately quantify workers' exposure to non-Gaussian noise and improve the underestimation of hearing loss caused by non-Gaussian noise. A large number of population studies are warranted in the future to verify the effectiveness of these two adjustment schemes.
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At present, the methods for verifying the attenuation of hearing protective devices(HPDs) mainly include real-ear attenuation at threshold(REAT), microphone in real ear(MIRE), and acoustical test fixture(ATF). Among them, the REAT is the gold standard, but its testing requirements are strict and there is a physiological noise masking effect. The test results of MIRE need to be modified by transfer function of the open ear, which has the advantage of convenient operation without being affected by subjective feelings. The ATF method is mainly used to verify the shape and quality of customized HPDs since its artificial ear design cannot truly reflect the real-ear test situation. The HPD fit testing has been well developed and widely applied abroad, which has been proved to be able to accurately verify and effectively improve the attenuation of workers wearing HPDs. However, relevant research and applications have only been carried out in China in recent years. At present, the main problems in the verification of the protective effect of HPDs in China are as follows: firstly, the measurement is only limited in attenuation and fail to comprehensively consider the applicability and comfort of the HPDs; secondly, a-weighted sound pressure level is mostly used in noise monitoring in China, while the choice of HPDs is based on C-weighted-sound pressure level. The transition between these two has not been established. Future research should be devoted to solve the above problems and help the use of HPDs in preventing the hearing loss of noise-exposed workers.
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BACKGROUND: In both developed and developing countries, noise is regarded as the most common occupational hazard in various industries. The present study aimed to examine the effect of sound pressure level (SPL) on serum cortisol concentration in three different times during the night shift. METHODS: This case–control study was conducted among 75 workers of an industrial and mining firm in 2017. The participants were assigned to one of the three groups (one control and two case groups), with an equal number of workers (25 participants) in each group. Following the ISO 9612 standard, dosimetry was adopted to evaluate equivalent SPL using a TES-1345 dosimeter. The influence of SPL on serum cortisol concentration was measured during the night shift. The serum cortisol concentration was measured using a radioimmunoassay (RIA) test in the laboratory. Repeated measure analysis of variance and linear mixed models were used with α = 0.05. RESULTS: The results indicated a downward trend in the serum cortisol concentration of the three groups during the night shift. Both SPL and exposure time significantly affected cortisol concentration (p < 0.0001, p < 0.0001). Conversely, age and body mass index had no significant influence on cortisol concentration (p = 0.360, p = 0.62). CONCLUSION: Based on the obtained results, increasing SPL will lead to enhancement of serum cortisol concentration. Given that cortisol concentration varies while workers are exposed to different SPLs, this hormone can be used as a biomarker to study the effect of noise-induced stress.
Subject(s)
Body Mass Index , Developing Countries , Hydrocortisone , Mining , Noise , Noise, Occupational , RadioimmunoassayABSTRACT
Objective To investigate the relationship between sound pressure level parameters of snoring sound and obstructive sites in patients with media or severe obstructive sleep apnea hypopnea syndrome(OSAHS). Methods Forty-six patients with media or severe OSAHS were included in this study.All underwent continuous upper airway pressure measurements and snoring sound pressure level recording simultaneously.The correlations between obstructive site,AHI,BMI and sound pressure level parameterssuch as equivalent continuous sound level (LAeq )and maximum sound pressure level (L10 )were analyzed.Results Both LAeq and L10 were affected only by AHI,whereas unrelated to obstructive site and BMI.Conclusion There is no definite relationship between the site of obstruction and sound pressure level parameters of snoring sound.It appears that LAeqand L10may be helpful to e-valuate the severity of OSAHS,but may have no clinical value on distinguishing obstructive sites.
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@#Objective To observe the immediate effects of the sustained forced-blowing exercise (SFBE) on the phonation function in young healthy people. Methods 43 young healthy people were asked to pronounce a longest /a/ in a comfortable situation within one breath for 3 times before and after SFBE. The sound files were analyzed with computer sound analysis system, with the parameters of mean maximum phonation time (MMPT), mean frequency (MF) and mean sound pressure level (MSPL). Results The MMPT and MSPL increased (P< 0.01) after SFBE. There was no significant difference in the MF (P>0.05) before and after SFBE. Conclusion The SFBE can improve the MPT and MSPL of the healthy people obviously, without affections on the MF.
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Objective To observe the immediate effects of the sustained forced-blowing exercise (SFBE) on the phonation function in young healthy people. Methods 43 young healthy people were asked to pronounce a longest/a/in a comfortable situation within one breath for 3 times before and after SFBE. The sound files were analyzed with computer sound analysis system, with the parameters of mean maxi-mum phonation time (MMPT), mean frequency (MF) and mean sound pressure level (MSPL). Results The MMPT and MSPL increased (P0.05) before and after SFBE. Conclusion The SFBE can improve the MPT and MSPL of the healthy people obviously, without affections on the MF.
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O ruído encontra-se cada vez mais relacionado à atividade de lazer no Brasil, inclusive em academias de ginástica, onde milhares de professores e alunos estão expostos a elevados níveis de pressão sonora durante várias horas por dia, sem qualquer tipo de proteção, sendo necessária a preocupação com a saúde mental e corporal desta população. Esta pesquisa teve como objetivo avaliar os níveis de ruído em academias de ginástica nas cidades de Curitiba-PR e Irati-PR, através das medições dos níveis de pressão sonora - nível sonoro equivalente (Leq), níveis mínimos (Lmin) e máximos (Lmax), simulações dos parâmetros acústicos (tempo de reverberação - TR e índice de transmissão da fala - STI) e identificação dos efeitos causados pelo ruído nos professores e alunos. Para a coleta de dados, foi utilizado um medidor sonoro classe I da marca Brüel & Kjær, modelo 2238, as simulações computacionais foram realizadas com o software Odeon Combined versão 9.2 e para a identificação dos efeitos, foram aplicados questionários nos alunos e professores. Na análise estatística foi utilizado o software R versão 2.11.1, considerado o nível de significância igual a 5% (p ? 0,05). Os resultados mostraram que os níveis de pressão sonora (Leq) variaram entre 80,1 e 100,1 dB(A), atingindo o valor máximo (Lmax) 117,2 dB(A), ultrapassando os valores limites estabelecidos pela legislação. Verificou-se que as modificações realizadas nas academias de ginástica reduziram o tempo de reverberação e alteraram a classificação do índice de transmissão da fala de pobre para satisfatório, melhorando assim as condições acústicas das academias de ginásticas. Os efeitos mais relatados pelos alunos e professores foram cansaço e fadiga vocal. Diversas alterações vocais foram apontadas pelos professores no final se sua jornada de trabalho, sendo que a mais relatada foi rouquidão. Conclui-se que o ambiente da academia de ginástica onde as pessoas buscam a promoção da saúde e lazer apresentou, incoerentemente, altos níveis de pressão sonora que são encontrados em ambientes industriais, gerando assim extrema preocupação com relação à saúde de seus alunos e, especialmente, dos professores atuantes. Diante dos resultados encontrados neste estudo, fica evidente a necessidade de ações que minimizem e controlem a ação prejudicial do ruído nas academias de ginástica, podendo ser realizadas através de medidas de controle da exposição do ruído na fonte, na trajetória e no indivíduo.
Noise is increasingly related to leisure activities in Brazil, including those carried out in fitness gyms where thousands of instructors and users are exposed to high sound pressure levels during several hours a day without any kind of protection, a situation in which it becomes necessary the concern about the mental and physical health of this population. The objective of this research was to evaluate the noise levels in fitness gyms in the cities of Curitiba and Irati in the State of Paraná through the measurements of sound pressure levels - equivalent continuous sound pressure level (Leq), minimum (Lmin) and maximum (Lmax) levels, simulations of the acoustic standards (reverberation time - RT and speech transmission index - STI) and the identification of effects caused by noise in instructors and users. A sound meter class I, model 2238 from the make Brüel e Kjær was used to collect the data and the software Odeon Combined version 9.2 was used for the computational simulations. In addition, a questionnaire was submitted to instructors and users aiming at identifying the effects of the high sound pressure levels on them. The software R version 2.11.1 was employed for the statistical analysis considering the significance level as 5% (p ? .05). The results showed that the sound pressure levels (Leq) varied between 80.1 and 100.1 dB(A), reaching the maximum value (Lmax) at 117.2 dB(A), surpassing the limits established by law. It was verified that the modifications made in the fitness gyms reduced the reverberation time and changed the speech transmission index classification from poor to fair improving the acoustic conditions of the gyms. The most reported effects by users and instructors were tiredness, and vocal fatigue. Several vocal alterations were pointed out by instructors in the end of their workday, being hoarseness the most reported one. The conclusion is that the fitness gym environment, despite being a place where people seek health improvement and leisure time, shows high sound pressure levels similar to the ones found in industrial environments, which creates an extreme concern in relation to the health of its users, and especially its instructors. In face of the results found in this research it seems unmistakable the need of efforts which minimize and control the hazardous action of noise in fitness gyms, which can be done through control measures of the noise exposure in the source, in the trajectory and in the individual.
Subject(s)
Humans , Male , Female , Adult , Noise Effects , Noise Meters , Fitness Centers , Pitch Perception , NoiseABSTRACT
OBJETIVO: analisar as possíveis relações entre níveis de pressão sonora elevados em sala de aula e o desempenho no uso das rotas lexical e fonológica na leitura e escrita. MÉTODOS: estudo quantitativo e exploratório. Medições acústicas por meio de dosímetro; inspeção visual do conduto auditivo externo; audiometria tonal e vocal; imitanciometria; instrumento de leitura e escrita de palavras isoladas. Foram utilizados o teste não paramétrico do χ² e teste exato de Fisher para análise de dados. Com base nos resultados das mensurações acústicas em quatro escolas de Santa Maria, foi possível dividir a amostra de 87 crianças do 3º e 4º anos do ensino fundamental, na faixa etária de 8 a 10 anos, em 2 grupos. O 1º grupo foi composto de crianças expostas a intensidades de som superior a níveis de 80 dB(A) (Grupo estudo) e o 2º grupo, com crianças expostas a níveis menores que 80 dB(A) (Grupo controle). RESULTADOS: maior prevalência de acertos nas pseudopalavras na leitura e escrita; na leitura de palavras irregulares e efeito de frequência; predomínio de acertos nas palavras irregulares na escrita para o Grupo controle. Para o Grupo estudo, maior número de erros de tipo neologismo na leitura e escrita, principalmente na escrita de pseudopalavras e efeito de extensão; menor número de erros de tipo lexicalização e paragrafias verbais na escrita. CONCLUSÃO: na avaliação das habilidades de leitura e escrita, considerando-se as rotas fonológica e lexical, as crianças do Grupo estudo, expostas a altos níveis de ruído, obtiveram pior desempenho no uso das rotas, tanto na leitura quanto na escrita.
PURPOSE: To analyze the possible relationships between high sound pressure levels in the classroom and performance in the use of lexical and phonological routes in reading and writing. METHODS: This consisted on a quantitative and exploratory study. The following measures were carried out: acoustic measurement, using the dosimeter, visual inspection of the external auditory canal, tonal audiometry thresholds, speech recognition tests and acoustic immittance; instrument for evaluation of reading and writing of isolated words. The non-parametric χ² test and Fisher's exact test were used for data analysis. The results of acoustic measurements in 4 schools in Santa Maria divided the sample of 87 children of third and fourth years of primary school, aged 8 to 10 years, in 2 groups. The 1st group was exposed to sound levels higher than 80 dB(A) (Study group) and the 2nd group at levels lower than 80 dB(A) (Control group). RESULTS: Higher prevalence of correct answers in reading and writing of nonwords, reading irregular words and frequency effect were observed. Predominance of correct answers in the writing of irregular words was observed in the Control group. For the Study group, a higher number of type errors neologism in reading and writing were observed, especially regarding the writing of nonwords and the extension effect; fewer errors of lexicalization type and verbal paragraphy in writing were observed. CONCLUSION: In assessing the reading and writing skills, children in the Study group exposed to high noise levels had poorer performance in the use of lexical and phonological routes, both in reading and in writing.
Subject(s)
Child , Female , Humans , Male , Auditory Perceptual Disorders , Phonetics , Reading , Speech Perception , Writing , Hearing Tests , Language Tests , Pressure , Sound , Surveys and QuestionnairesABSTRACT
OBJECTIVES: In Korea, an average of 258 workers claim compensation for their noise-induced hearing loss (NIHL) on an annual basis. Indeed, hearing disorder ranks first in the number of diagnoses made by occupational medical check-ups. Against this backdrop, this study analyzed the impact of 19 types of noise-generating machines and equipment on the sound pressure levels in workplaces and NIHL occurrence based on a 2009 national survey on work environments. METHODS: Through this analysis, a series of statistical models were built to determine posterior probabilities for each worksite with an aim to present risk ratings for noise levels at work. RESULTS: It was found that air compressors and grinding machines came in first and second, respectively in the number of installed noise-generating machines and equipment. However, there was no direct relationship between workplace noise and NIHL among workers since noise-control equipment and protective gear had been in place. By building a logistic regression model and neural network, statistical models were set to identify the influence of the noise-generating machines and equipment on workplace noise levels and NIHL occurrence. CONCLUSION: This study offered NIHL prevention measures which are fit for the worksites in each risk grade.