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Psychoacoustic metrics in the psychological diagnosis of noise annoyance

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Języki publikacji
EN
Abstrakty
EN
Aim of the study was to asses noise annoyance in relation to psychoacoustic metrics of sound in an office environment. The Vienna Test System was used for this purpose. Virtual office acoustic environments were developed with sources of different psychoacoustic parameters (loudness, sharpness, fluctuation strength, roughness) but with a constant A-weighted sound pressure level of 55 dB - sound environment with conversations, sound environment with office equipment (computers, printers, telephones) and sound environment with all office noise sources together. The reference environment was a quiet office room with no additional noise sources. Recorded real noise sources were transferred to a virtual 3D sound environment and converted into binaural sound, which was then played back on headphones. During the exposure to each of the acoustic environments, the subjects performed the ALS test (work performance series) and COG test (measurement of attention and concentration) and then assessed the given environment using a questionnaire. The paper presents the results of the statistical analysis - despite different psychoacoustic metrics of office noise sources in the examined acoustic environments, no statistically significant differences were observed in the results of psychological tests.
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art. no. 2023101
Opis fizyczny
Bibliogr. 23 poz., wykr.
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autor
  • Centralny Instytut Ochrony Pracy - Państwowy Instytut Badawczy, Czerniakowska 16, 00-701 Warszawa
Bibliografia
  • 1. G. Belojevic; Noise and Performance: Research in Central, Eastern and South-Eastern Europe and Newly Independent States; Noise Health, 2013, 15(62), 2-5; DOI: 10.4103/1463-1741.107146
  • 2. ISO/TS 15666:2003; Acoustics - Assessment of Noise Annoyance by Means of Social and Socio-Acoustic Surveys 2003; International Organization for Standardization, 2003
  • 3. C. Clark, K. Paunovic; WHO Environmental Noise Guidelines for the European Region: A Systematic Review on Environmental Noise and Quality of Life, Wellbeing and Mental Health; Int. J. Environ. Res. Public Health, 2018, 15(11), 2400; DOI: 10.3390/ijerph15112400
  • 4. ISO 532:1975; Acoustics - Method for calculating loudness level; International Organization for Standardization, 1975
  • 5. ANSI S3.4-2007; Procedure for the Computation of Loudness of Steady Sounds; American National Standards Institute, 2007
  • 6. K.D. Kryter; The Meaning and Measurement of Perceived Noise Level; Noise Control, 1960, 6, 12-27; DOI: 10.1121/1.2369423
  • 7. L. Brocolini, C. Lavandier, C. Marquis-Favre, M. Quoy, M. Lavandier; Prediction and explanation of sound quality indicators by multiple linear regressions and artificial neural networks; Proceedings of Acoustics 2012; Nantes, 2012, 2121-2126
  • 8. N.A. Çoban, K. Gedik, S. Kayal; A case study on public noise annoyance in relation to research trends on noise pollution; Proceedings of Euronoise 2015, 1621-1626
  • 9. L. Fredianelli, S. Carpita, G.A. Licitra; A procedure for deriving wind turbine noise limits by taking into account annoyance; Sci Total Environ., 2019, 648, 728-736; DOI: 10.1016/j.scitotenv.2018.08.107
  • 10. C. Lechner, D. Schnaiter, S. Bose-O’Reilly; Combined Effects of Aircraft, Rail, and Road Traffic Noise on Total Noise Annoyance-A Cross-Sectional Study in Innsbruck; Int. J. Environ. Res. Public Health, 2019, 16(18), 3504; DOI: 10.3390/ijerph16183504
  • 11. P. Maigrot, É . Parizet, C. Marquis-Favre; Annoyance due to combined railway noise and vibration: Comparison and testing of results from the literature; Applied Acoustics, 2020, 165, 107324; DOI: 10.1016/j.apacoust.2020.107324
  • 12. W. Paszkowski, J. Kotus, T. Poremski, B. Kostek; Evaluation of sound quality features on environmental noise effects - a case study applied to road traffic noise; Metrol. Meas. Syst., 2018, 25, 517-31; DOI: 10.24425/123901
  • 13. W. Paszkowski, M. Sobiech; The Modeling of the Acoustic Condition of Urban Environment Using Noise Annoyance Assessment; Environ. Model Assess., 2019, 24, 319-30; DOI: 10.1007/s10666-018-9643-1
  • 14. J. Ryu, H. Song; Effect of building façade on indoor transportation noise annoyance in terms of frequency spectrum and expectation for sound insulation; Applied Acoustics, 2019, 152, 21-30; DOI: 10.1016/j.apacoust.2019.03.020
  • 15. M. Sheikh, A. Mitchell; Design strategies for perceived acoustic comfort in urban environments - A literature review; Proceedings of Acoustics 2018, 249-258
  • 16. P. Wallner, H.P. Hutter, H. Moshammer; Evaluating an 80 Hz tonal noise from a hydropower plant; Int. J. Occup. Med. Environ. Health, 2019, 32, 401-11; DOI: 10.13075/ijomeh.1896.01361
  • 17. E. Sundstrom, J.P. Town, R.W. Rice, D.P. Osborn, M. Brill; Office Noise, Satisfaction, and Performance; Environ. Behav., 1994, 26, 195-222; DOI: 10.1177/001391659402600204
  • 18. E.M. De Croon, J.K. Sluiter, P.P. Kuijer, M.H. Frings-Dresen; The effect of office concepts on worker health and performance: a systematic review of the literature; Ergonomics, 2005, 48, 119-34; DOI: 10.1080/00140130512331319409
  • 19. A. Kaarlela-Tuomaala, R. Helenius, E. Keskinen, V. Hongisto; Effects of acoustic environment on work in private office rooms and open-plan offices - longitudinal study during relocation; Ergonomics, 2009, 52, 1423-44; DOI: 10.1080/00140130903154579
  • 20. S. Banbury, D.C. Berry; Disruption of office-related tasks by speech and office noise; Br. J. Psychol., 1998, 89, 499-517
  • 21. B. Smagowska, M. Pawlaczyk-Łuszczyńska; Effects of ultrasonic noise on the human body - a bibliographic review; Int. J. Occup. Saf. Ergon. JOSE, 2013, 19, 195-202; DOI: 10.1080/10803548.2013.11076978
  • 22. PN-N-01307:1994; Noise - Permissible values of noise parameters in the work environment - Requirements for performing measurements; Polish Committee for Standardization, 1994
  • 23. M. Schütte, A. Marks, E. Wenning, B. Griefahn; The development of the noise sensitivity questionnaire; Noise Health, 2007, 9, 15-24; DOI: 10.4103/1463-1741.34700
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-bb8a0b83-cc29-4a9d-8224-279b8d16aa95
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