A. Jolibois, J. Defrance, and H. Koreneff, In situ measurement of the acoustic performance of a full scale tramway low height noise barrier prototype
URL : https://hal.archives-ouvertes.fr/hal-01266356

, Applied Acoustics, vol.94, pp.57-68, 2015.

M. Bérengier, B. Gauvreau, and P. Blanc-benon, Outdoor sound propagation: A short review on analytical and numerical approaches

, Acta Acustica united with Acustica, vol.89, issue.6, pp.980-991, 2003.

R. Makarewicz, A simple model of outdoor noise propagation

, Applied Acoustics, vol.54, issue.2, pp.131-140, 1998.

, ISO 10847-1997: Acoustics --In-situ determination of insertion loss of outdoor noise barriers of all types

, HJ?T 90-2004: Norm on Acoustical Design and Measurement of Noise Barriers

, Noise barriers and related devices acting on airborne sound propagation. Test method for determining the acoustic performance. Extrinsic characteristics, CEN/TS 16272-7:2015: Railway applications. Track

. Tb/t, 3050-2002: Specifications for the Measuring Technique of Environmental Noise along Railway Lines

, GB 12525-90: Emission standards and measurement

, GB/T 5111-2011: Acoustics. Measurement of noise emitted by rail bound vehicle

, HJ 453-2008: Technical guidelines for environment impact-Assessment of urban rail transit

T. Busch and R. E. Nugent, A reduced-scale railway noise barrier's insertion loss and absorption coefficients: comparison of field measurements and predictions

, Journal of sound and vibration, vol.267, issue.3, pp.749-759, 2003.

J. Clairbois and M. Garai, The European standards for roads and railways noise barriers: state of the art, 2015.

M. Pawlaczyk-?uszczy?ska and A. Dudarewicz,

M. Waszkowska, Assessment of annoyance from low frequency and broadband noise

, Int J Occup Environ Med, vol.16, pp.337-380, 2003.

H. Leventhall, Low frequency noise and annoyance, Noise and Health, vol.6, p.59, 2004.

N. Broner and H. G. Leventhall, A criterion for predicting the annoyance due to higher level, low frequency noise

, Journal of Sound and Vibration, vol.84, issue.3, pp.443-448, 1982.

N. Broner and H. G. Leventhall, Low frequency noise annoyance assessment by low frequency noise rating (LFNR) curves, J]. Journal of Low Frequency Noise, Vibration and Active Control, vol.2, issue.1, pp.20-28, 1983.

N. Ishac, Low frequency noise and environmental assessment

K. Persson and M. Björkman, Annoyance due to low frequency noise and the use of the dB (A) scale, J]. Journal of Sound and Vibration, vol.127, issue.3, pp.491-497, 1988.

A. Kjellberg, M. Goldstein, and F. Gamberale, An assesment of dB (A) for predicting loudness and annoyance of noise containing low frequency components, J]. Journal of Low Frequency Noise, Vibration and Active Control, vol.3, issue.3, pp.10-16, 1984.

X. Li, Q. Liu, and S. Pei, Structure-borne noise of railway composite bridge: Numerical simulation and experimental validation, J]. Journal of Sound and Vibration, vol.353, pp.378-394, 2015.

A. Pierce, Diffraction of sound around corners and over wide barriers, The Journal of the Acoustical Society of America, vol.55, issue.5, pp.941-955, 1974.

U. Kurze, A. , and G. S. , Sound attenuation by barriers

, Applied Acoustics, vol.4, issue.1, pp.35-53, 1971.

L. Beranek, T. J. Mellow, and . Acoustics, , 2012.

A. Torija and I. Flindell, The subjective effect of low frequency content in road traffic noise

, The Journal of the Acoustical Society of America, vol.137, issue.1, pp.189-198, 2015.

D. Thompson, Wheel-rail noise generation, part I: introduction and interaction model, Journal of sound and vibration, vol.161, issue.3, pp.387-400, 1993.

, Noise mapping in the EU: models and procedures

R. Hellman and E. Zwicker, Why can a decrease in dB (A) produce an increase in loudness, The Journal

, Qiutong LI is the Ph. D. candidate