ГОСТ Р ИСО 1996-1-2019 Акустика. Описание, измерение и оценка шума на местности. Часть 1. Основные величины и процедуры оценки

Общие вопросы

[1]

ISO 226, Acoustics - Normal equal-loudness-level contours

[2]

ISO 532 (all parts), Acoustics - Method for calculating loudness level

[3]

ISO 1999, Acoustics - Estimation of noise-induced hearing loss

[4]

ISO 9613 (all parts), Acoustics - Attenuation of sound during propagation outdoors

[5]

ANSI/ASA S3.4, Procedure for the computation of loudness of steady sounds

[6]

DIN 45631 and Amendment 1, Berechnung des und der Lautheit aus dem - Verfahren nach E. Zwicker (Calculation of loudness level and loudness from the sound spectrum - Zwicker method)

[7]

Fidell S., Mestre V., Schomer P., Berry B., Gjestland T., Vallet M. A first-principles model for estimating the prevalence of annoyance with aircraft noise exposure. J. Acoust. Soc. Am. 2011, 130 (2) pp.791-806

[8]

Finegold L.S., Harris C.S., von Gierke H.E. Community annoyance and sleep disturbance: Updated criteria for assessing the impacts of general transportation noise on people. Noise Control Eng. J. 1994, 42 (1) pp.25-30

[9]

Groothuis-Oudshoorn C.G.M., & Miedema H.M.E. Multilevel grouped regression for analyzing self-reported health in relation to environmental factors: the model and its application. Biom. J. 2006, 48 (1) pp.67-82

[10]

Janssen S.A., Vos H., van Kempen E.E.M.M., Breugelmans O.R.P., Miedema H.M.E. Trends in aircraft noise annoyance: the role of study and sample characteristics. J. Acoust. Soc. Am. 2011, 129 (4) pp.1953-1962

[11]

Kryter K.D. Community annoyance from aircraft and ground vehicle noise. J. Acoust. Soc. Am. 1982, 72 pp.1212-1242

[12]

Kryter K.D. Effects of noise on man. Academic, New York, 1985

[13]

Lercher P. Deviant dose response curves for traffic noise in sensitive areas. Internoise 98, Christchurch, New Zealand, pp.1141-1145

[14]

Miedema H.M.E., &Vos H. Exposure-response relationships for transportation noise. J. Acoust. Soc. Am. 1998, 104 (6) pp.3432-3445

[15]

Miedema H.M.E., & Oudshoorn C.G.M. Annoyance from transportation noise: Relationships with exposure metrics DNL and DENL and their confidence intervals. Environ. Health. 2001, 109 pp.409-416

[16]

Miedema H.M.E. Relationship between exposure to multiple noise sources and noise annoyance. J.Acoust. Soc. Am. 2004, 116 pp.949-957

[17]

Schomer P. Loudness-level weighting for environmental noise assessment. Acta Acustica. 2000, 86 (1)

[18]

Schomer P., Mestre V., Fidell S., Berry B., Gjestland Т., Vallet M. Role of a community tolerance value in predictions of the prevalence of annoyance due to road and rail noise. J. Acoust. Soc. Am. 2012, 131 (4) pp. 2772-2786

[19]

Schultz T.J. Synthesis of social surveys on noise annoyance. J. Acoust. Soc. Am. 1978, 64 (2) pp.337-405

[20]

Sneddon M., Pearsons К., Fidell S. Laboratory study of the noticeability and annoyance of low signal-to-noise ratio sounds. Noise Control Eng. J. 2003, 51 (5) pp.300-305

[21]

Viollon S., Marquis-Favre C., Junker E., Baumann С. Environmental assessment of industrial noises annoyance with the criterion "sound emergence". International Congress on Acoustics. 2004 Th5.X1.1 pp.3045-3048

[22]

Yokoshima S., Yano T., Kawai K., Morinaga M., Ota A. Representative dose-response curves for individual transportation noises in Japan. Internoise, New York, 2012, pp.1922.

[23]

Vos J. Annoyance caused by simultaneous impulse, road-traffic, and aircraft sounds: A quantitative model. J. Acoust. Soc. Am. 1992, 91 (6) pp.3330-3345

Импульсный шум

[24]

ISO 10843, Acoustics - Methods for the description and physical measurement of single impulses or series of impulses

[25]

Berry B.F., & Bisping R. CEC joint project on impulse noise: Physical quantification methods. Proc. 5th Intl. Congress on Noise as a Public Health Problem. Stockholm, 1988 pp.153-158

[26]

Buchta E. Annoyance caused by shooting noise - Determination of the penalty for various weapon calibers. Internoise 96, Liverpool, UK, pp.495-2500

[27]

Buchta E., & Vos J. Afield survey on the annoyance caused by sounds from large firearms and road traffic. J.Acoust. Soc. Am. 1998, 104 (5) pp.2890-2902

[28]

NRC. Assessment of community response to high-energy impulsive sounds. Report of Working Group 84, Committee on Hearing, Bioacoustics and Biomechanics (CHABA), National Research Council, National Academy of Science, Washington, D.C., 1981, NTIS ADA110100

[29]

NRC. Community response to high-energy impulsive sounds: An assessment of the field since 1981. Committee on Hearing, Bioacoustics and Biomechanics (CHABA), National Research Council, National Academy of Science. NTIS PB, Washington, D.C., 1996, pp.97-124044.

[30]

Schomer P.D. New descriptor for high-energy impulsive sounds. Noise Control Eng. J. 1994, 42 (5) pp.179-191

[31]

Schomer P.D., & Sias J.W Maglieri D. A comparative study of human response, indoors, to blast noise and sonic booms. Noise Control Eng. J. 1997, 45 (4) pp.169-182

[32]

Vos J. A review of research on the annoyance caused by impulse sounds produced by small firearms. Internoise 95, Newport Beach, USA, Vol. 2, pp.875-878

[33]

Vos J. Comments on a procedure for rating high-energy impulse sounds: Analyses of previous and new data sets, and suggestions for a revision. Noise Vib. Worldwide. 2000, 31 (1) pp.18-29

[34]

Vos J. On the annoyance caused by impulse sounds produced by small, medium-large, and large firearms. J. Acoust. Soc. Am. 2001, 109 (1) pp.244-253

Поправки на тональный шум

[35]

Scharf В., Hellman R., Bauer J. Comparison of various methods for predicting the loudness and acceptability of noise. Office of Noise Abatement and Control (U. S. Environmental Protection Agency, Washington D.C., 1977), NTIS PB81-243826

[36]

Scharf В., & Hellman R. Comparison of various methods for predicting the loudness and acceptability of noise, Part II, Effects of spectral pattern and tonal components. Office of Noise Abatement and Control (U. S. Environmental Protection Agency, Washington D.C., 1979), NTIS PB82-138702

Низкочастотный шум

[37]

ISO 7196, Acoustics - Frequency-weighting characteristic for infrasound measurements

[38]

ANSI S12.9 Part 4, Quantities and procedures for description and measurement of environmental sound - Part 4: Noise assessment and prediction of long-term community response

[39]

DIN 45680 and Supplement 1, Messung und Beurteilung tieffrequenter Gerauschimmissionen (Measurement and assessment of low-frequency noise immissions)

[40]

Broner N., & Leventhall H.G. Low frequency noise annoyance assessment by low frequency noise rating (LFNR) curves. J. Low Frequency Noise Vibration. 1983, 2 (1) pp.20-28

[41]

Broner N., & Leventhall H.G. Annoyance loudness and unacceptability of higher level low frequency noise. J Low Frequency Noise and Vibration. 1985, 4 (1) pp.1-11

[42]

Gottlob D.P.A. German standard for rating low-frequency noise immissions. Internoise 98, Christchurch, New Zealand

[43]

Jakobsen J. Measurement and assessment of environmental low frequency noise and infrasound. Internoise 98, Christchurch, New Zealand, pp.1199-1202

[44]

Mirowska M. Results of measurements and limits proposal for low frequency noise in the living environment. J. Low Frequency Noise and Vibration. 1995, 14 pp.135-141

[45]

Piorr D., & Wietlake K.H. Assessment of low frequency noise in the vicinity of industrial noise sources. J. Low Frequency Noise and Vibration. 1990, 9 p.116

[46]

Vercammen M.L.S. Low-frequency noise limits. J. Low Frequency Noise and Vibration. 1992, pp.7-12

УДК 628.517.2:006.354

ОКС 13.140

Т34

Ключевые слова: шум, шум на местности, население, раздражающее действие шума, виды шума, источники шума, поправки, социально допустимый уровень шума