Thomas Funkhouser
Ingrid Carlbom
- 1.Ahnert, Wolfgang. EARS Auralization Software. J. Audio Eng. Soc., 41, 11, November, 1993,894-904.Google Scholar
- 2.Allen, J.B., Berkley, D.A. Image Method for Efficiently Simulating Small-Room Acoustics, J. Acoust. Soc. Am., 65, 4, April, 1979, 943-951.Google ScholarCross Ref
- 3.Amanatides, J. Ray Tracing with Cones. Computer Graphics (SIGGRAPH 84). 18, 3,129-135. Google ScholarDigital Library
- 4.Arvo, J. and D. Kirk. A Survey of Ray Tracing Acceleration Techniques. in An Introduction to Ray Tracing, Andrew Glassner editor, Academic Press, San Diego, CA, 1989. Google ScholarDigital Library
- 5.Baumgart, Bruce G. Winged Edge Polyhedlvn Representation. Ph.D. Thesis, Computer Science Department, Stanford University, 1972.Google ScholarDigital Library
- 6.Borish, Jeffrey. Extension of the Image Model to Arbitrary Polyhedra. J. Acoust. Soc.Am., 75, 6, June, 1984, 1827-1836.Google ScholarCross Ref
- 7.Bose Modeler, Bose Corporation, Framingham, MA. http://www.bose.com.Google Scholar
- 8.CATT-Acoustic, CATT, Gothenburg, Sweden, http://www.netg.se/catt.Google Scholar
- 9.Chuang, J.H. and S.A. Cheng. Computing caustic effects by backward beam tracing. The Visual Computer, 11, 3, 1995, 156-166.Google ScholarCross Ref
- 10.Cook, Robert, L., Thomas Porter, and Loren Carpenter. Distributed Ray Tracing. Computer Graphics (SIGGRAPH 84). 18, 3,137-146. Google ScholarDigital Library
- 11.D'Antonio, Peter, and John Konnert. The Directional Scattering Coefficient: Experimental Determination. J, Audio Eng. Soc., 40, 12, December, 1992,997- 1017.Google Scholar
- 12.Dadoun, N., D.G. Kirkpatrick, and J.R Walsh. Hierarchical Approaches to Hidden Surface Intersection Testing. Graphics Intelface '82, Toronto, Canada, May, 1982, 49-56.Google Scholar
- 13.Dadoun, N., D.G. Kirkpatrick, and J.R Walsh. The Geometry of Beam Tracing. P~vceedings of the Symposium on Computational Geometry, Baltimore, June, 1985, 55-71. Google ScholarDigital Library
- 14.Durlach, N.I., R.W. Pew, W.A. Aviles, RA. DiZio, and D.L. Zeltzer. Virtual Envilvnment Technology for Training (VETT). Report No. 7661, Bolt, Beranek, and Newmann, Cambridge, MA, 1992.Google Scholar
- 15.Durlach, N.I, and A.S. Mavor, editors, VirtuaIReality Scientific and Technological Challenges, National Research Council Report, National Academy Press, Washington, D.C., 1995.Google Scholar
- 16.Fortune, Steve. Algorithms for Prediction of Indoor Radio Propagation. Technical Memorandum, Document #11274-960117-03TM, Bell Laboratories, 1996. A partial version of this paper appears in Applied Computational Geometry, Towards Geometric Engineering, proceedings of the FCRC '96 Workshop in conjunction with WACG '96, Philadelphia, PA, May, 1996, 157-166. Google ScholarDigital Library
- 17.Foster, S.H., E.M. Wenzel, and R.M. Taylor. Real-time Synthesis of Complex Acoustic Environments. P~vceedings of the IEEE Workshop on Applications of Signal P~vcessing to Audio andAcoustics, New Paltz, NY, 1991.Google Scholar
- 18.Fuchs, H. Kedem, Z., and Naylor, B. On Visible Surface Generation by a Priori Tree Structures. Computer Graphics (Proc. SIGGRAPH '80), 124-133. Google ScholarDigital Library
- 19.Fujomoto, Akira. Turbo Beam Tracing - A Physically Accurate Lighting Simulation Environment. Knowledge Based Image Computing Systems, May, 1988, 1-5.Google Scholar
- 20.Ghazanfarpour, G. and J. Marc Hasenfratz. A Beam Tracing with Precise Antialiasing for Polyhedral Scenes. Computer & Graphics, 22, 1, 1998.Google ScholarCross Ref
- 21.Goral, Cindy M., Kenneth E. Torrance, Donald R Greenberg, and Bennett Battaile. Modeling the Interaction of Light Between Diffuse Surfaces. Computer Graphics (Proc. SIGGRAPH '84), 18, 3, July, 1984, 213-222. Google ScholarDigital Library
- 22.Haines, Eric A. Beams O' Light: Confessions of a Hacker. Frontiers in Rendering Course Notes, SIGGRAPH' 91, 1991.Google Scholar
- 23.Heckbert, Paul, and Pat Hanrahan. Beam Tracing Polygonal Objects. Computer Graphics (SIGGRAPH 84), 18, 3, 119-127. Google ScholarDigital Library
- 24.Heckbert, Paul. Adaptive Radiosity Textures for Bidirectional Ray Tracing. Computer Graphics (SIGGRAPH 90), 24, 4, 145-154. Google ScholarDigital Library
- 25.Heinz, R. Binaural Room Simulation Based on an Image Source Model with Addition of Statistical Methods to Include the Diffuse Sound Scattering of Walls and to Predict the Reverberant Tail J. Applied Acoustics, 38, 2-4,1993,145-160.Google ScholarCross Ref
- 26.Hodgson, M. Evidence of Diffuse Surface Reflections in Rooms. J. Acoust. Soc. Am., 89, 1991,765-771.Google ScholarCross Ref
- 27.Jones, C.B. A New Approach to the 'Hidden Line' Problem. The Computer Journal, 14, 3 (August 1971), 232-237.Google ScholarCross Ref
- 28.Kajiya, James T. The Rendering Equation. Computer Graphics (SIGGRAPH 86), 143-150. Google ScholarDigital Library
- 29.Keller, Joseph B. Geometrical Theory of Diffraction. Journal of the Optical Society of America, 52, 2, February, 1962,116-130.Google ScholarCross Ref
- 30.Kleiner, Mendel, Bengt-Inge Dalenback, and Peter Svensson. Auralization- An Overview. J. Audio Eng. Soc., 41, 11, November, 1993, 861-875.Google Scholar
- 31.Kreuzgruber, R, R Unterberger, and R. Gahleitner. A Ray Splitting Model for Indoor Radio Propagation Associated with Complex Geometries. P~vceedings of the 1993 43rd IEEE Vehicular Technology Conference, 1993,227-230.Google ScholarCross Ref
- 32.Kristiansen, U.R., A. Krokstad, and T. Follestad. Extending the Image Method to Higher-Order Reflections. J. Applied Acoustics, 38, 2-4, 1993,195-206.Google ScholarCross Ref
- 33.Krockstadt, U.R. Calculating the Acoustical Room Response by the Use of a Ray Tracing Technique, J. Sound and Vibrations, 8, 18, 1968.Google Scholar
- 34.Kuttruff, Heinrich Room Acoustics, 3rd Edition, Elsevier Science, London, England, 1991.Google Scholar
- 35.Lehnert, Hilmar. Systematic Errors of the Ray-Tracing Algorithm. J. Applied Acoustics, 38, 2-4, 1993, 207-221.Google ScholarCross Ref
- 36.Lewers, T. A Combined Beam Tracing and Radiant Exchange Computer Model of Room Acoustics. J. Applied Acoustics, 38, 2-4, 1993,161-178.Google ScholarCross Ref
- 37.McGrath, David, and Andrew Reilly. Convolution Processing for Realistic Reverberation. The 98th Convention of the Audio Engineering Society, February, 1995.Google Scholar
- 38.Monks, Michael, Byong Mok Oh, and Julie Dorsey. Acoustic Simulation and Visualization using a New Unified Beam Tracing and Image Source Approach. Meeting of the Audio Engineering Society, November, 1996.Google Scholar
- 39.Moore, G.R. An Applvach to the Analysis of Sound in Auditoria. Ph.D. Thesis, Cambridge, UK, 1984.Google Scholar
- 40.Naylor, G.M. ODEON - Another Hybrid Room Acoustical Model. J. Applied Acoustics, 38, 2-4, 1993, 131-144.Google ScholarCross Ref
- 41.Naylor, B.F. Constructing Good Partitioning Trees. Graphics Intelface '93, Toronto, CA, May, 1993.Google Scholar
- 42.Rajkumar, A., B.F. Naylor, and L. Rogers. Predicting RF Coverage in Large Environments using Ray-Beam Tracing and Partitioning Tree Represented Geometry. Wireless Networks, 1995. Google ScholarDigital Library
- 43.Rindel, J.H. Modelling the Angle-Dependent Pressure Reflection Factor. J. Applied Acoustics, 38, 2-4, 1993, 223-234.Google ScholarCross Ref
- 44.Sequin, Carlo, and Eliot Smyrl. Parameterized Ray Tracing. Computer Graphics (SIGGRAPH 89), 23, 3,307-314. Google ScholarDigital Library
- 45.Smits, Brian, James R. Arvo, and David H. Salesin. An Importance-Driven Radiosity Algorithm. Computer Graphics (SIGGRAPH 92), 26, 2,273-282. Google ScholarDigital Library
- 46.Stephenson, U., and U. Kristiansen. Pyramidal Beam Tracing and Time Dependent Radiosity. Fifteenth International Congress on Acoustics, Tapir, June, 1995, 657-660.Google Scholar
- 47.Stettner, Adam, and Donald R Greenberg. Computer Graphics Visualization for Acoustic Simulation. Computer Graphics (SIGGRAPH 89), 23, 3,195-206. Google ScholarDigital Library
- 48.Takala, Tapio, and James Hahn. Sound Rendering. Computer Graphics (SIG- GRAPH 92), 26, 2, 211-220. Google ScholarDigital Library
- 49.Teller, Seth J., and Carlo H. S6quin, Visibility Preprocessing for Interactive Walkthroughs. Computer Graphics (SIGGRAPH 91), 25, 4, 61-69. Google ScholarDigital Library
- 50.Teller, Seth J. Computing the Antiumbra Cast by an Area Light Source. Computer Graphics (P1vc. SIGGRAPH '92), 26, 2 (August 1992), 139-148. Google ScholarDigital Library
- 51.Teller, Seth J. Visibility Computations in Densely Occluded Polyhedral Envi~vnments. Ph.D. thesis, Computer Science Division (EECS), University of California, Berkeley, 1992. Also available as UC Berkeley technical report UCB/CSD-92-708. Google ScholarDigital Library
- 52.Tsingos, Nicolas, and Jean-Dominique Gascuel. A General Model for Simulation of Room Acoustics Based On Hierarchical Radiosity. Technical Sketches, SIGGRAPH 97 Visual P1vceedings, 1997. Google ScholarDigital Library
- 53.Tsingos, Nicolas, and Jean-DominiqueGascuel. Soundtracks for Computer Animation: Sound Rendering in Dynamic Environments with Occlusions. Graphics Intelface '97, Kelowna, May 21-23, 1997, 9-16. Google ScholarDigital Library
- 54.Veach, Eric, and Leonidas J. Guibas. Metropolis Light Transport. Computer Graphics (SIGGRAPH 97), 65-76. Google ScholarDigital Library
- 55.Vian, J.P. and D. van Maercke. Calculation of the Room Response Using a Ray Tracing Method. P~vceedings of the ICA Symposium on Acoustics and Theater Planning for the Pelforming Arts, Vancouver, CA, 1986, 74-78.Google Scholar
- 56.Vorlander, M. International Round Robin on Room Acoustical Computer Simulations. P~vceedings of the 15th International Congress of Acoustics, Trondheim, Norway, June, 1995.Google Scholar
- 57.Walsh, John R, and Norm Dadoun. What Are We Waiting for? The Development of Godot, II. presented at the 103 rd Meeting of the Acoustical Society of America, Chicago, April, 1982.Google Scholar
- 58.Ward, William C., Gary, W. Elko, Robert A. Kubli, and W. Craig McDougald. The New Varechoic chamber at AT&T Bell Labs. P~vceeding of Wallace Clement Sabine Centennial Symposium, Acoustical Society of America, New York, June, 1994, 343-346.Google Scholar
- 59.Watt, Mark. Light-Water Interaction Using Backward Beam Tracing. Computer Graphics (SIGGRAPH 90), 24, 377-385. Google ScholarDigital Library
- 60.Weiler, K. and R Atherton. Hidden Surface Removal Using Polygon Area Sorting. Computer Graphics (SIGGRAPH 77), 11, 2,214-222. Google ScholarDigital Library
- 61.Whitted, Turner. An Improved Illumination Model for Shaded Display. Communications oftheACM, 23, 6, June, 1980, 343-349. Google ScholarDigital Library
Index Terms
- A beam tracing approach to acoustic modeling for interactive virtual environments
Recommendations
Real-time acoustic modeling for distributed virtual environments
SIGGRAPH '99: Proceedings of the 26th annual conference on Computer graphics and interactive techniquesPresence in virtual environments as a function of visual and auditory cues
VRAIS '95: Proceedings of the Virtual Reality Annual International Symposium (VRAIS'95)The paper reports the results of two experiments each investigating the sense of presence within visual and auditory virtual environments. The variables for the studies included the presence or absence of head tracking, the presence or absence of ...
A Method for Virtual Acoustic Auralisation in VR
AM '18: Proceedings of the Audio Mostly 2018 on Sound in Immersion and EmotionIn today's industry, the use of prediction software in architectural acoustics is universal. Programs such as Odeon, CATT and CadnaA have become an integral part of the design process. These programs combine general acoustic theory with CAD modelling ...
Comments