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WHO. Burden of disease from environmental noise quantification of healthy life years lost in Europe, World Health Organization, 2011.
B. Rasmussen. Sound insulation between dwellings - Requirements in building regulations in Europe, Appl. Acoust., 71(4): 373-385, 2010.
ISO. ISO 717:1. Acoustics - Rating of sound insulation in buildings and of building elements - Part 1: Airborne sound insulation. International Organization for Standardization, 1996.
D. B. Pedersen, J. Roland, G. Raabe and W. Maysenholder. Measurement of the low-frequency sound insulation of building components. Acustica, 86(3): 495-505, 2000.
C. Simmons. Measurement of sound pressure levels at low frequencies in rooms. Comparison of available methods and standards with respect to microphone positions. Acta Acustica united with Acustica, 85(1): 88-100, 1999.
B. M. Gibbs and S. Maluski. Airborne sound level difference between dwellings at low frequencies. Building Acoustics, 11(1): 61-78, 2004.
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E. Nannipieri and S. Secchi. The evolution of acoustic comfort in Italian houses. Building Acoustics, 19(2): 99-118, 2012.
Abstract
ISO. ISO 140:5 Acoustics - Measurement of sound insulation in buildings and of building elements - Part 5: Field measurement of airborne sound insulation of façade element and façades. International Organization for Standardization, 1998.
ASTM. ASTM E 966-10. Standard Guide for Field Measurements of Airborne Sound Insulation of Building Facades and Facade Elements. American National Standards Institute, 2010.
JIS A 1430. Acoustics - Field measurements of airborne sound insulation of facade elements and facades, Japanese Industrial Standard, 2009.
U. Berardi. A contribution to the evaluation of uncertainty in measurement sound insulation of building façade. Proc. AIA 2011, in Italian, 2011.
R. Cremonini and P. Fausti. Analysis of the effect of the position of the sound source in the field measurements of the sound insulation. Proc. AIA 2011, in Italian, 2011.
E. Gerretsen. Interpretation of uncertainties in acoustics measurements in buildings. Noise Control Eng. J. 55(1): 50-54, 2007.
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J. D. Quirt. Sound fields near exterior building surfaces. J. Acoust. Soc. Am., 77(2): 557-566, 1985.
C. Hopkins and Y. Lam. Sound fields near building façades - comparison of finite and semi-infinite reflectors on a rigid ground plane. Appl. Acoust., 70(2): 300-308, 2009.
U. Berardi, E. Cirillo and F. Martellotta. Interference effects in field measurements of airborne sound insulation of building façades. Noise Control Eng. J., 59(2): 165-176, 2011.
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C. Hopkins. On the efficacy of spatial sampling using manual scanning paths to determine the spatial average sound pressure level in rooms. J. Acoust. Soc. Am., 129(5): 3027-3034, 2011.
J. L. Sánchez Bote, A. Pedrero González, and J. J. Gómez Alfageme. Influence of loudspeaker directivity and measurement geometry on direct acoustic levels over façades for acoustic insulation tests with the International Standard ISO 140-5. Appl. Acoust., 73(4): 440-453, 2012.
ISO. ISO: 16283:1. Acoustics - Field measurement of sound insulation in buildings and of building elements - Part 1: Airborne sound insulation. International Organization for Standardization, 2011.
C. Hopkins and P. Turner. Field measurement of airborne sound insulation between rooms with non diffuse sound fields at low frequencies. Appl. Acoust., 66(12):1339-1382, 2005.
ISO. ISO 16032. Acoustics - Measurement of sound pressure level from service equipment in buildings - Engineering method. International Organization for Standardization, 2004.
ISO. ISO 3382:2. Acoustics - Measurement of room acoustic parameters - Reverberation time in ordinary rooms. International Organization for Standardization, 2009.