Sound absorption measurement of road surface with in situ technology

von Meier A, van Blokland GJ, Descornet G. The influence of texture and sound absorption on the noise of porous road surfaces. In: PIARC 2nd international symposium on road surface characteristics, Berlin, Germany; 1992. p. 7–19. Berengier, 1997, Porous road pavements: acoustical characterization and propagation effects, J Acoust Soc Am, 101, 155, 10.1121/1.417998 van Keulen W, Duškov M. Inventory study of basic knowledge on tyre/road noise. In: IPG Report DWW-2005-022, Delft, The Netherlands; 2005. Sandberg, 2002 van Blokland GJ, Reinink HF, Kropp W. Acoustic optimization tool. RE3: Measurement data Kloosterzande test track. In: M+P Report DWW.06.04.8 2007; M+P Raadgevende Ingenieurs bv: Vught, The Netherlands; 2007. ISO10534-1. Determination of sound absorption coefficient and impedance in impedance tubes – Part 1: Method using standing wave ratio; 1996. ISO13472-1. Measurement of sound absorption properties of road surfacings in situ – Part 1: Extended surface method; 2002. Morgan, 2003, A novel approach to the acoustic characterisation of porous road surfaces, Appl Acoust, 64, 1171, 10.1016/S0003-682X(03)00085-9 Lanoye, 2006, Measuring the free field acoustic impedance and absorption coefficient of sound absorbing materials with a combined particle velocity–pressure sensor, J Acoust Soc Am, 119, 2826, 10.1121/1.2188821 Yntema, 2006, A four particle velocity sensor device, J Acoust Soc Am, 119, 943, 10.1121/1.2151797 Tijs E, de Bree HE. An in situ method to measurement the acoustic absorption of roads whilst driving. In: NAG/DAGA 2009, International Conference on Acoustics. Rotterdam, The Netherlands; 2009. Iwase T, Yoshihisa K. Measuring method of sound reflection and absorption characteristics based on the particle velocity and its applications to measurements on such as drainage pavement of road surface. In: Proc internoise 2003. Seogwipo, Korea; 2003. Lanoye R, de Bree H-E, Lauriks W, Vermeir G. A practical device to determine the reflection coefficient of acoustic materials in-situ based on a Microflown and microphone sensor. In: ISMA-international conference on noise and vibration engineering, Leuven, Belgium; 2004. Tijs E. Study and development of an in situ acoustic absorption measurement method. University of Twente; 2014. Brandão, 2013, Impedance measurement of non-locally reactive samples and the influence of the assumption of local reaction, J Acoust Soc Am, 133, 2722, 10.1121/1.4799015 Brandão, 2011, A comparison of models for calculating the surface impedance and the bsorption coefficient in free field conditions, Acta-Acustica, 97, 1025, 10.3813/AAA.918482 Allard, 1992, The acoustic sound field above a porous layer and the estimation of the acoustic surface impedance from free-field measurements, J Acoust Soc Am, 91, 3057, 10.1121/1.402941 Alvarez JD, Jacobsen F. An iterative method for determining the surface impedance of acoustic materials in situ internoise, In Internoise2008. Shanghai, China; 2008. Bendtsen H, Raaberg J, Thomsen SN. International experiences with thin layer pavements. The Danish Road Directorate Hedehusene, Denmark; 2005. Meiarashi S. Porous elastic road surface as an ultimate highway noise measure. In the 22nd World road congress, Durban, South Africa; 2003. Brandão, 2012, Estimation and minimization of errors caused by sample size effect in the measurement of the normal absorption coefficient of a locally reactive surface, Appl Acoust, 73, 543, 10.1016/j.apacoust.2011.09.010 Hirosawa, 2009, Comparison of three measurement techniques for the normal absorption coefficient of sound absorbing materials in the free field, J Acoust Soc Am, 126, 3020, 10.1121/1.3242355 Brandão, 2011, Estimation of pressure–particle velocity impedance measurement uncertainty using the Monte Carlo method, J Acoust Soc Am, 130, EL25, 10.1121/1.3601882 Nelson, 2008, Acoustical absorption of porous pavement, Transp Res Rec: J Transp Res Board, 2058, 125, 10.3141/2058-15 Attenborough, 2011, Outdoor ground impedance models, J Acoust Soc Am, 129, 2806, 10.1121/1.3569740 de Bree H-E, Nosko M, Tijs E. A handheld device to measure the acoustic absorption in situ. In NVH GRAZ; 2008. Müller-Trapet, 2013, On the in situ impedance measurement with pu-probes—simulation of the measurement setup, J Acoust Soc Am, 134, 1082, 10.1121/1.4812250 Vigran, 1997, Prediction and measurements of the influence of boundary conditions in a standing wave tube, Acta Acust Acust, 83, 419