Interactive real-time auralization of airborne sound insulation in buildings

Sound insulation auralization can be used as valuable tool to study the perceptual aspects of sound transmission in built environments for assessment of noise effects on people. It may help to further develop guidelines for building constructions. One advanced goal of real-time sound insulation auralization is to appropriately reproduce the condition of noise effects on the human perception and cognitive performance in dynamic and interactive situations. These effects depend on the kind of noise signal (i.e. speech, music, traffic noise, etc.) and on the context. This paper introduces a sound insulation auralization model. The sound insulation filters are constructed for virtual buildings with respect to complex sound propagation effects for indoor and outdoor sound sources. The approach considers the source room sound field with direct and diffuse components along with source directivity and position. The transfer functions are subdivided into patches from the source room to the receiver room, which also covers composite building elements, thus providing more detail to the actual building situations. Furthermore, the receiving room acoustics includes the reverberation of the room based on its mean free path, absorption and binaural transfer functions between its radiating walls elements and the listener. This more exact approach of sound insulation model agrees reasonably well with the ISO standard (i.e. diffuse field theory) under standard settings. It is also shown that the sound field significantly influences the transmitted energies via building elements depending on the directivity and position of the source. The proposed method is validated as a general scheme and includes more details for real-time auralization in specific situations especially in the cases where the simplified diffuse sound field approach fails. It is capable to be used in interactive Virtual Reality (VR) systems, which opens new opportunities for psychoacoustics research in noise effects on human.

[1]  David Oliva,et al.  Work performance in private office rooms: The effects of sound insulation and sound masking , 2016 .

[2]  John L Davy Predicting the sound insulation of single leaf walls: extension of Cremer's model. , 2009, The Journal of the Acoustical Society of America.

[3]  John L. Davy THE RADIATION EFFICIENCY OF FINITE SIZE FLAT PANELS , 2004 .

[4]  J. Z. Zhu,et al.  The finite element method , 1977 .

[5]  Birgit Rasmussen,et al.  HARMONIZATION OF SOUND INSULATION DESCRIPTORS AND CLASSIFICATION SCHEMES IN EUROPE: COST ACTION TU0901 , 2010 .

[6]  M. Pinterić Building Acoustics , 2021, Building Physics.

[7]  Gerrit Vermeir,et al.  A hybrid finite element - Statistical energy analysis approach to robust sound transmission modeling , 2014 .

[8]  Michael Vorländer,et al.  Sound insulation auralization filters design for outdoor moving sources , 2019 .

[9]  Michael Vorlnder,et al.  Auralization: Fundamentals of Acoustics, Modelling, Simulation, Algorithms and Acoustic Virtual Reality , 2020 .

[10]  Mcj Maarten Hornikx,et al.  Sensitivity of stage acoustic parameters to source and receiver directivity : measurements on three stages and in two orchestra pits , 2017 .

[11]  Jens Holger Rindel,et al.  Sound Insulation in Buildings , 2017 .

[12]  M Vorländer,et al.  The impact of background speech varying in intelligibility: Effects on cognitive performance and perceived disturbance , 2008, Ergonomics.

[13]  Alfonso Rodriguez-Molares A new method for auralisation of airborne sound insulation , 2013 .

[14]  Michael Vorländer,et al.  Audio-video virtual reality environments in building acoustics: An exemplary study reproducing performance results and subjective ratings of a laboratory listening experiment. , 2019, The Journal of the Acoustical Society of America.

[15]  R. Lyon,et al.  Theory and Application of Statistical Energy Analysis , 2014 .

[16]  R. Lyon The Development Of Statistical Energy Analysis , 2003 .

[17]  E Eddy Gerretsen Calculation of the sound transmission between dwellings by partitions and flanking structures , 1979 .