From the reviews:
"Particularly attractive about this book is its very complete coverage of auralization techniques, presenting applications not only in room acoustics but also in sound insulation and in other noise control engineering applications, as well as in real-time virtual reality. … The book serves as an excellent overview of the auralization technique and gives around 230 references for more detailed studies… . Being very much up-to-date today, we can expect that it will stay so far years to come." (Peter Svensson, Sprachrohr, Issue 45, 2008)
Auralization is the creation of audible acoustic sceneries from computer-generated data. The term "auralization" is to be understood as being analogue to the well-known technique of "visualization". In visual illustration of scenes, data or any other meaningful information, in movie animation and in computer graphics, we describe the process of "making visible" as visualization. In acoustics, auralization is taking place when acoustic effects, primary sound signals or means of sound reinforcement or sound transmission, are processed to be presented by using electro-acoustic equipment. This book is organized as comprehensive collection of basics, methodology and strategies of acoustic simulation and auralization. With mathematical background of advanced students the reader will be able to follow the main strategy of auralization easily and work own implementations of auralization in various fields of applications in acoustic engineering, sound design and virtual reality. For readers interested in basic research the technique of auralization may be useful to create sound stimuli for specific investigations in linguistic, medical, neurological and psychological research and in the field of human-machine interaction.
About the Author
Michael Vorländer became director of the institute and professor of technical acoustics at RWTH Aachen University, Germany, in 1996. After education in physics and a doctorate degree in 1989 he worked in various fields of acoustics, mainly architectural acoustics and binaural technology.
His main areas of research are room acoustics, building acoustics, psychoacoustics, acoustic measurements, virtual acoustics
