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Issue No.02 - April-June (2009 vol.16)
pp: 64-75
Xavier Amatriain , University of California, Santa Barbara
JoAnn Kuchera-Morin , University of California, Santa Barbara
Tobias Hollerer , University of California, Santa Barbara
Stephen Travis Pope , University of California, Santa Barbara
ABSTRACT
<p>The AlloSphere is a spherical space in which immersive, virtual environments allow users to explore large-scale data sets through multimodal, interactive media.</p>
INDEX TERMS
Immersive environments, scientific visualization, stereographic displays, 3D audio, human–computer interaction, spherical displays
CITATION
Xavier Amatriain, JoAnn Kuchera-Morin, Tobias Hollerer, Stephen Travis Pope, "The AlloSphere: Immersive Multimedia for Scientific Discovery and Artistic Exploration", IEEE MultiMedia, vol.16, no. 2, pp. 64-75, April-June 2009, doi:10.1109/MMUL.2009.35
REFERENCES
1. C. Cruz-Neira et al., "The Cave: Audio Visual Experience Automatic Virtual Environment," Comm. ACM, vol. 35, no. 6, 1992, pp. 64-72.
2. J. Ihren and K. Frisch, "The Fully Immersive Cave," Proc. 3rd Int'l Immersive Projection Technology Workshop, Springer, 1999, pp. 59-63.
3. N. Shibano et al., "Cyberdome: PC Clustered Hemispherical Immersive Projection Display," Proc. Int'l Conf. Artificial Reality and Telexistence, IEEE CS Press, 2003, pp. 1-7.
4. R. Kalawsky, The Science of Virtual Reality and Virtual Environments, Addison-Wesley, 1993.
5. H. McGurk and T. McDonald, "Hearing Lips and Seeing Voices," Nature, vol. 264, 1976, pp. 746-748.
6. A. Malkawi and R. Srinivasan, "Multimodal Human–Computer Interaction for Immersive Visualization: Integrating Speech-Gesture Recognitions and Augmented Reality for Indoor Environments," Proc. 7th IASTED Conf. Computer Graphics and Imaging, ACTA Press, 2004, pp. 171-175.
7. P.B. Hansen, "An Evaluation of the Message- Passing Interface," ACM Sigplan Notices, vol. 33, no. 3, 1998, pp. 65-72.
8. M. Wright, A. Freed, and A. Momeni, "Opensoundcontrol: State of the Art 2003," Proc Int'l Conf. New Interfaces for Musical Expression, 2003, pp. 153-160.
9. G. Humphreys, M. Houston, and R. Ng, "Chromium: A Stream Processing Framework for Interactive Rendering on Clusters," ACM Trans. Graphics, vol. 21, no. 3, 2002, pp. 693-702.
10. O. Kreylos, Environment-Independent VR Development, tech. report, Univ. of California, Davis, 2006.
11. M. Howe, "A Proposal for Dome Standards," Proc. IPS Fulldome Standards Summit, 2004.
12. R. Raskar et al. "Quadric Transfer for Immersive Curved Screen Displays," Proc. Eurographics, Blackwell Publishing, vol. 23, no. 3, 2004, pp. 451-460.
13. T. Ni et al., "A Survey of Large High-Resolution Display Technologies, Techniques, and Applications," Proc. IEEE Virtual Reality Conf., IEEE CS Press, 2006, pp. 223-236.
14. B. Schaeffer and C. Goudeseune, "Syzygy: Native PC Cluster VR," Proc. IEEE Virtual Reality Conf., IEEE CS Press, 2003, p. 15.
15. A. Bierbaum et al., "VR Juggler: A Virtual Platform for Virtual Reality Application Development," Proc. IEEE Virtual Reality Conf., IEEE CS Press, 2001, pp. 89-96.
16. J. Ballas, "Delivery of Information through Sound," Auditory Display: Sonification, Audification and Auditory Interfaces, Addison Wesley, 1994, pp. 79-94.
17. D. Conant et al., "The Acoustics of a Large 3D Immersive Environment: The AlloSphere at UCSB," Proc. ASA-EAA Joint Conf. Acoustics, ASA, 2008.
18. V. Pulkki, "Virtual Sound Source Positioning Using Vector Base Amplitude Panning," J. Audio Engineering Soc., vol. 45, no. 6, 1997, pp. 456-466.
19. D. Malham and A. Myatt, "3D Sound Spatialization Using Ambisonic Techniques," Computer Music Journal (CMJ), vol. 19, no. 4, 1995, pp. 58-70.
20. S. Spors, H. Teutsch, and R. Rabenstein, "High-Quality Acoustic Rendering with Wave Field Synthesis," Proc. Vision, Modeling, and Visualization Workshop, Aka GmbH, 2002, pp. 101-108.
21. A. Berkhout, "A Holographic Approach to Acoustic Control," J. Audio Engineering Soc., vol. 36, no. 12, 1988, pp. 977-995.
22. D. McCoy, Ventriloquist: A Performance Interface for Real-Time Gesture-Controlled Music Spatialization, master's thesis, Univ. of California, Santa Barbara, 2005.
23. M.A. Gerzon, "Periphony: With-Height Sound Reproduction," J. Audio Engineering Soc., vol. 21, no. 1, 1973, pp. 2-10.
24. F. Hollerweger, Periphonic Sound Spatialization in Multiuser Virtual Environments, master's thesis, Austrian Inst. Electronic Music and Acoustics, 2006.
25. G. Wakefield, "Third-Order Ambisonic Extensions for MaxMSP with Musical Applications," Proc. Int'l Computer Music Conf., ICMA, 2006, pp. 123-126.
26. W. Wolcott, Wave Field Synthesis with Real-Time Control, master's thesis, Univ. of California, Santa Barbara, 2007.
27. J. Castellanos, Design of a Framework for Adaptive Spatial Audio Rendering, master's thesis, Univ. of California, Santa Barbara, 2006.
28. X. Amatriain, "A Domain-Specific Metamodel for Multimedia Processing Systems," IEEE Trans. Multimedia, vol. 9, no. 6, 2007, pp. 1284-1298.
29. S.T. Pope and C. Ramakrishnan, "The Create Signal Library ("Sizzle"): Design, Issues and Applications," Proc. Int'l Computer Music Conf., ICMA, 2003.
30. X. Amatriain et al., "Immersive Audio and Music in the AlloSphere," Proc. Int'l Computer Music Conf., ICMA, 2007.
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