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ing and interacting with the room, shell casings
tinkling on the floor, and the creature falls to the
ground with a resonating thud. The application of
spatial sound will advance and drive the narrative
and drama in a computer game, and ultimately
lead to an immersive user experience.
Khronos Group. (2009).
OpenSL ES specification
.
The Khronos Group.
Li, S., & Knudsen, J. (2005).
Beginning J2METM
platform: From novice to professional
(3rd ed.).
City, CA: Apress Press Inc.
Mark, F., Bear, B. W. C., & Paradiso, M. A. (2007).
Neuroscience
—
Exploring the brain
(3rd ed.).
City, ST/Country: Lippincott Williams & Wilkins.
rEFErENcEs
Murphy, D. (1999).
A review of spatial sound in
the Java 3D API specification
. Institute of Sound
Recording, University of Surrey.
Ashmed, D. H., & Wall, R. S. (1999). Auditory
perception of walls via spectral variations in the
ambient sound field.
Journal of Rehabilitation
Research and Development
,
36
(4).
Murphy, D. (1999). Spatial sound description
in virtual environments. In
Proceedings of the
Cambridge Music Processing Colloquium.
Begault, D. R., & Wenzel, E. M. (1993). Head-
phone localization of speech.
Human Factors
,
35
, 361-376.
Murphy, D., & Pitt, I. (2001). Spatial sound
enhancing virtual story telling.
Springer Lecture
Notes In Computer Science, 2197
.
Blauert, J. (1997).
Spatial hearing: The psycho-
physics of human sound localization
(rev. ed).
Cambridge, MA: MIT Press.
Murphy, D., & Rumsey, F. (2001). A scalable
spatial sound rendering system. In
Proceedings
of the 110th AES Convention
.
Burgess, D. (1992). Techniques for low cost
spatial audio. In
Proceedings of the 5th annual
ACM symposium on User interface software and
technology.
Otani, M., & Ise, S. (2003). A fast calculation
method of the head-related transfer functions for
multiple source points based on the boundary ele-
ment method.
Acoustical Science and Technology
,
24
(5), 259-266. doi:10.1250/ast.24.259
Duda, R. O., Algazi, V. R., & Thompson, D. M.
(2002). The use of head-and-torso models for im-
proved spatial sound synthesis. In
Proceedings of
the 113th Audio Engineering Society Convention.
Paavola, M. K. E., & Page, J. (2005). 3D audio
for mobile devices via Java. In
Proceedings of
the AES 118th Convention
.
Everest, F. A. (1997).
Sound studio construction
on a budget
. City, ST: McGraw-Hill.
Rault, J. B., Emerit, M., Warusfel, O., & Jot, J. M.
(1998). Audio rendering of virtual room acoustics
and perceptual description of the auditory scene.
TCI/SC29/WG11
.
Everest, F. A. (2001).
Master handbook of acous-
tics
. City, ST: McGraw-Hill.
Fletcher, T. D. R. N. H. (2004).
Principles of
vibration and sound
(2nd ed.). New York.
Satoshi Yairi, Y. I., & Suzuki, Y. (2008). Indi-
vidualization of Head-Related Transfer Functions
based on subjective evaluation. In
Proceedings of
the 14th International Conference on Auditory
Displays
.
Goyal, V. (2006).
Pro Java ME MMAPI: Mobile
media API for Java Micro Edition
. City, CA:
Apress Press Inc. JSR-234 Group. (2005).
Ad-
vanced multimedia supplements API for JavaTM2
Micro Edition
. Nokia Corporation.
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