Search in book...
Toggle Font Controls
Create new playlist

Name your new playlist

Playlist description (optional)
Sign In

Email address

Password

Forgot Password?

or

Continue with Facebook

Continue with Google
Sign Up

Full Name

Email address

Confirm Email Address

Password

or

Continue with Facebook

Continue with Google

Bibliography

[1] Sameer Agarwal, Ravi Ramamoorthi, Serge Belongie, and Henrik Wann Jensen. “Structured Importance Sampling of Environment Maps.” ACM Transactions on Graphics 22:3 (2003), 605–612.

[2] L. Alonso, F. Cuny, S. Petit Jean, J.-C. Paul, S. Lazard, and E. Wies. “The Virtual Mesh: A Geometric Abstraction for Efficiently Computing Radiosity.” ACM Transactions on Graphics 3:20 (2001), 169–201.

[3] Thomas Annen, Jan Kautz, Frdo Durand, and Hans-Peter Seidel. “Spherical Harmonic Gradients for Mid-Range Illumination.” In Rendering Techniques 2004 Eurographics Symposium on Rendering, pp. 331–336, 2004.

[4] A. Appel. “Some Techniques for Shading Machine Renderings of Solids.” In AFIPS 1968 Spring Joint Computer Conference, 32, 32, 1968.

[5] J. Arvo. “Backward Ray Tracing.” In SIGGRAPH 1986 Developments in Ray Tracing course notes, 1986.

[6] J. Arvo. “Stratified Sampling of Spherical Triangles.” In Computer Graphics Proceedings, Annual Conference Series, 1995 (ACM SIG-GRAPH ’95 Proceedings), pp. 437–438, 1995.

[7] Kavita Bala, Julie Dorsey, and Seth Teller. “Interactive Ray-Traced Scene Editing Using Ray Segment Trees.” In Tenth Eurographics Workshop on Rendering, pp. 39–52, 1999.

[8] Kavita Bala, Julie Dorsey, and Seth Teller. “Radiance Interpolants for Accelerated Bounded-Error Ray Tracing.” ACM Transactions on Graphics 18:3 (1999), 213–256.

[9] Kavita Bala, Bruce Walter, and Donald P. Greenberg. “Combining Edges and Points for High-Quality Interactive Rendering.” ACM Transactions on Graphics 23:3 (SIGGRAPH 2003), 631–640.

[10] Kavita Bala. “Radiance Interpolants for Interactive Scene Editing and Ray Tracing.” Ph.D. thesis, Massachusetts Institute of Technology, 1999.

[11] Ph. Bekaert and H.-P. Seidel. “A Theoretical Comparison of Monte Carlo Radiosity Algorithms.” In Proc. 6th Fall Workshop on Vision, Modeling and Visualisation 2001 (VMV01), Stuttgart, Germany, pp. 257–264, 2001.

[12] Ph. Bekaert, L. Neumann, A. Neumann, M. Sbert, and Y. D. Willems. “Hierarchical Monte Carlo Radiosity.” In Proceedings of the 9th. Eurographics Workshop on Rendering, Vienna, Austria, 1998.

[13] Ph. Bekaert, M. Sbert, and Y. Willems. “The Computation of Higher-Order Radiosity Approximations with a Stochastic Jacobi Iterative Method.” In 16th Spring Conference on Computer Graphics, Comenius University, Bratislava, Slovakia, 2000. 212–221.

[14] Ph. Bekaert, M. Sbert, and Y. Willems. “Weighted Importance Sampling Techniques for Monte Carlo Radiosity.” In Rendering Techniques ‘2000 (Proceedings of the 11th Eurographics Workshop on Rendering, Brno, Czech Rep.), p. 35–46. Springer Computer Science, 2000.

[15] Ph. Bekaert. “Hierarchical and Stochastic Algorithms for Radiosity.” Ph.D. thesis, K. U. Leuven, Department of Computer Science, 1999.

[16] Gary Bishop, Henry Fuchs, Leonard McMillan, and Ellen J. Scher Zagier. “Frameless Rendering: Double Buffering Considered Harmful.” Computer Graphics 28: Annual Conference Series (1994), 175–176.

[17] Ph. Blasi, B. Le Sa¨ec, and C. Schlick. “A Rendering Algorithm for Discrete Volume Density Objects.” Computer Graphics Forum 12:3 (1993), 201–210.

[18] K. Bouatouch, S. N. Pattanaik, and E. Zeghers. “Computation of Higher Order Illumination with a Non-Deterministic Approach.” Computer Graphics Forum 15:3 (1996), 327–338.

[19] P. Bratley, B. L. Fox, and H. Niederreiter. “Implementation and Tests of Low-Discrepancy Sequences.” ACM Transactions on Modelling and Computer Simulation 2:3 (1992), 195–213.

[20] DM. Bunnell. “Dynamic Ambient Occlusion and Indirect Lighting.” In GPU Gems 2: Programming Techniques for High-Performance Graphics and General-Purpose Computation, edited by M. Pharr, pp. 223– 233. Reading, MA: Addison-Wesley, 2005.

[21] David Burke, Abhijeet Ghosh, and Wolfgang Heidrich. “Bidirectional Importance Sampling for Direct Illumination.” In Rendering Techniques 2005: 16th Eurographics Workshop on Rendering, pp. 147–156, 2005.

[22] S. Chandrasekhar. Radiative Transfer. Oxford: Oxford University Press, 1950.

[23] S. Chattopadhyay and A. Fujimoto. “Bi-directional Ray Tracing.” In Computer Graphics 1987 (Proceedings of CG International 1987), edited by Tosiyasu Kunii, pp. 335–43. Tokyo: Springer-Verlag, 1987.

[24] S. E. Chen, H. E. Rushmeier, G. Miller, and D. Turner. “A Progressive Multi-Pass Method for Global Illumination.” In Computer Graphics (SIGGRAPH ’91 Proceedings), pp. 165–174, 1991.

[25] P. H. Christensen, D. H. Salesin, and T. D. DeRose. “A Continuous Adjoint Formulation for Radiance Transport.” In Fourth Eurographics Workshop on Rendering, pp. 95–104, 1993.

[26] P. H. Christensen, E. J. Stollnitz, and D. H. Salesin. “Global Illumination of Glossy Environments Using Wavelets and Importance.” ACM Transactions on Graphics 15:1 (1996), 37–71.

[27] Petrik Clarberg, Wojciech Jarosz, Tomas Akenine-M¨oller, and Henrik Wann Jensen. “Wavelet Importance Sampling: Efficiently Evaluating Products of Complex Functions.” ACM Transactions on Graphics 24:3 (2005), 1166–1175.

[28] M. F. Cohen and D. P. Greenberg. “The Hemi-Cube: A Radiosity Solution for Complex Environments.” Computer Graphics (SIGGRAPH ‘85 Proceedings) 19:3 (1985), 31–40.

[29] M. F. Cohen and J. R. Wallace. Radiosity and Realistic Image Synthesis. Boston, MA: Academic Press Professional, 1993.

[30] M. F. Cohen, D. P. Greenberg, D. S. Immel, and P. J. Brock. “An Efficient Radiosity Approach for Realistic Image Synthesis.” IEEE Computer Graphics and Applications 6:3 (1986), 26–35.

[31] M. F. Cohen, S. E. Chen, J. R. Wallace, and D. P. Greenberg. “A Progressive Refinement Approach to Fast Radiosity Image Generation.” In Computer Graphics (SIGGRAPH ‘88 Proceedings), pp. 75–84, 1988.

[32] S. Collins. “Adaptive Splatting for Specular to Diffuse Light Transport.” In Fifth Eurographics Workshop on Rendering, pp. 119–135, 1994.

[33] R. Cook and K. Torrance. “A Reflectance Model for Computer Graphics.” ACM Transactions on Graphics 1:1 (1982), 7–24.

[34] R. L. Cook, T. Porter, and L. Carpenter. “Distributed Ray Tracing.” Computer Graphics 18:3 (1984), 137–145.

[35] S. Daly. “Engineering Observations from Spatio-Velocity and Spatiotemporal Visual Models.” IST/SPIE Conference on Human Vision and Electronic Imaging III, SPIE 3299 (1998), 180–191.

[36] L. M. Delves and J. L. Mohamed. Computational Methods for Integral Equations. Cambridge, UK: Cambridge University Press, 1985.

[37] K. Devlin, A. Chalmers, A. Wilkie, and W. Purgathofer. “Tone Reproduction and Physically Based Spectral Rendering.” In Eurographics 2002: State of the Art Reports, pp. 101–123. Aire-la-Ville, Switzerland: Eurographics Association, 2002.

[38] Kirill Dmitriev, Stefan Brabec, Karol Myszkowski, and Hans-Peter Seidel. “Interactive Global Illumination using Selective Photon Tracing.” In Thirteenth Eurographics Workshop on Rendering, 2002.

[39] George Drettakis and Francois X. Sillion. “Interactive Update of Global Illumination Using a Line-Space Hierarchy.” In Computer Graphics (SIGGRAPH 1997 Proceedings), pp. 57–64, 1997.

[40] Reynald Dumont, Fabio Pellacini, and James A. Ferwerda. “Perceptually-Driven Decision Theory for Interactive Realistic Rendering.” ACM Transactions on Graphics 22:2 (2003), 152–181.

[41] Ph. Dutré and Y. D. Willems. “Importance-Driven Monte Carlo Light Tracing.” In Fifth Eurographics Workshop on Rendering, pp. 185–194. Darmstadt, Germany, 1994.

[42] Ph. Dutré and Y. D. Willems. “Potential-Driven Monte Carlo Particle Tracing for Diffuse Environments with Adaptive Probability Density Functions.” In Eurographics Rendering Workshop 1995, 1995.

[43] S. M. Ermakow. Die Monte-Carlo-Methode und verwandte Fragen. Berlin: V.E.B. Deutscher Verlag der Wissenschaften, 1975.

[44] M. Feda. “A Monte Carlo Approach for Galerkin Radiosity.” The Visual Computer 12:8 (1996), 390–405.

[45] S. Fernandez, K. Bala, and D. Greenberg. “Local Illumination Environments for Direct Lighting Acceleration.” Eurographics Workshop on Rendering 2002, pp. 7–14, 2002.

[46] Randima Fernando. GPU Gems: Programming Techniques, Tips, and Tricks for Real-Time Graphics. Reading, MA: Addison-Wesley Professional, 2004.

[47] J. Ferwerda, S. Pattanaik, P. Shirley, and D. Greenberg. “A model of Visual Adaptation for Realistic Image Synthesis.” In SIGGRAPH 96 Conference Proceedings, pp. 249–258, 1996.

[48] James A. Ferwerda, Stephen H. Westin, Randall C. Smith, and Richard Pawlicki. “Effects of Rendering on Shape Perception in Automobile Design.” In APGV 2004, pp. 107–114, 2004.

[49] R. P. Feynman. QED. Princeton: Princeton University Press, 1988.

[50] G. E. Forsythe and R. A. Leibler. “Matrix Inversion by a Monte Carlo Method.” Math. Tabl. Aids. Comput. 4 (1950), 127 – 129.

[51] C. Piatko G. Ward, H. Rushmeier. “A Visibility Matching Tone Reproduction Operator for High Dynamic Range Scenes.” IEEE Transactions on Visualization and Computer Graphics 3:4 (1997), 291–306.

[52] A. S. Glassner, editor. An Introduction to Ray Tracing. London: Academic Press, 1989.

[53] A. S. Glassner. “A Model for Fluorescence and Phosphorescence.” In Proceedings of the Fifth Eurographics Workshop on Rendering, pp. 57– 68, 1994.

[54] A. S. Glassner. Principles of Digital Image Synthesis. San Francisco, CA: Morgan Kaufmann Publishers, Inc., 1995.

[55] J. S. Gondek, G. W. Meyer, and J. G. Newman. “Wavelength Dependent Reflectance Functions.” In Proceedings of SIGGRAPH’94, pp. 213–220, 1994.

[56] C. M. Goral, K. E. Torrance, D. P. Greenberg, and B. Battaile. “Modeling the Interaction of Light Between Diffuse Surfaces.” In SIGGRAPH ‘84 Conference Proceedings, pp. 213–222, 1984.

[57] Steven Gortler, Radek Grzeszczuk, Richard Szeliski, and Michael Cohen. “The Lumigraph.” In Computer Graphics (SIGGRAPH 1996 Proceedings), pp. 43–54, 1996.

[58] H. Gouraud. “Continuous Shading of Curved Surfaces.” IEEE Transactions on Computers 20:6 (1971), 623–629.

[59] D. Greenberg, K. Torrance, P. Shirley, J. Arvo, J. Ferwerda, S. Pattanaik, E. Lafortune, B. Walter, S. Foo, and B. Trumbore. “A Framework for Realistic Image Synthesis.” In Proceedings of ACM SIGGRAPH, pp. 44–53, 1997.

[60] E. A. Haines and D. P. Greenberg. “The Light Buffer: a Shadow Testing Accelerator.” IEEE Computer Graphics & Applications 6:9 (1986), 6–16.

[61] J. H. Halton. “A Restrospective and Prospective Survey of the Monte Carlo Method.” SIAM Review 12:1 (1970), 1 – 63.

[62] J. M. Hammersley and D. C. Handscomb. Monte Carlo Methods. London: Methuen/Chapman and Hall, 1964.

[63] P. Hanrahan and W. Krueger. “Reflection from Layered Surfaces Due to Subsurface Scattering.” In Proceedings of SIGGRAPH 93, pp. 165– 174, 1993.

[64] P. Hanrahan, D. Salzman, and L. Aupperle. “A Rapid Hierarchical Radiosity Algorithm.” In Computer Graphics (SIGGRAPH ’91 Proceedings), pp. 197–206, 1991.

[65] D. Hart, Ph. Dutré, and D. P. Greenberg. “Direct Illumination With Lazy Visibility Evaluation.” In Proceedings of SIGGRAPH 99, Computer Graphics Proceedings, Annual Conference Series, pp. 147–154, 1999.

[66] Milos Hasan, Fabio Pellacini, and Kavita Bala. “Direct-to-Indirect Transfer for Cinematic Relighting.” To appear in SIGGRAPH: ACM Trans. Graph., 2006.

[67] X. D. He, K. E. Torrance, F. X. Sillion, and D. P. Greenberg. “A Comprehensive Physical Model for Light Reflection.” In Computer Graphics (SIGGRAPH 1991 Proceedings), pp. 175–86, 1991.

[68] E. Hecht and A. Zajac. Optics. Reading, MA: Addison-Wesley Publishing Company, 1979.

[69] P. S. Heckbert and J. Winget. “Finite Element Methods for Global Illumination.” Technical Report UCB/CSD 91/643, Computer Science Division (EECS), University of California, Berkeley, California, USA, 1991.

[70] P. S. Heckbert. “Adaptive Radiosity Textures for Bidirectional Ray Tracing.” Computer Graphics (SIGGRAPH ‘90 Proceedings) 24:4 (1990), 145–154.

[71] P. S. Heckbert. “Discontinuity Meshing for Radiosity.” Third Eurographics Workshop on Rendering, pp. 203–226.

[72] Wolfgang Heidrich and Hans-Peter Seidel. “Realistic, Hardware-Accelerated Shading and Lighting.” In Proceedings of SIGGRAPH 99, Computer Graphics Proceedings, Annual Conference Series, pp. 171– 178, 1999.

[73] D. Hockney. Secret Knowledge. London: Thames and Hudson, 2001.

[74] Piti Irawan, James A. Ferwerda, and Stephen R. Marschner. “Perceptually Based Tone Mapping of High Dynamic Range Image Streams.” In 16th Eurographics Workshop on Rendering, pp. 231–242, 2005.

[75] A. Ishimaru. Wave Propagation and Scattering in Random Media, Volume 1: Single Scattering and Transport Theory. New York: Academic Press, 1978.

[76] H. W. Jensen and J. Buhler. “A Rapid Hierarchical Rendering Technique for Translucent Materials.” ACM Transactions on Graphics 21:3 (2002), 576–581.

[77] H. W. Jensen and N. J. Christensen. “Photon Maps in Bidirectional Monte Carlo Ray Tracing of Complex Objects.” Computers & Graphics 19:2 (1995), 215–224.

[78] H. W. Jensen and P. H. Christensen. “Efficient Simulation of Light Transport in Scenes with Participating Media using Photon Maps.” In Proceedings of SIGGRAPH’98, pp. 311–320, 1998.

[79] H. W. Jensen, J. Arvo, M. Fajardo, P. Hanrahan, D. Mitchell, M. Pharr, and P. Shirley. “State of the Art in Monte Carlo Ray Tracing for Realistic Image Synthesis.” In SIGGRAPH 2001 Course Notes (Course 29), 2001.

[80] H. W. Jensen, S. R. Marschner, M. Levoy, and P. Hanrahan. “A Practical Model for Subsurface Light Transport.” In Proceedings of ACM SIGGRAPH 2001, Computer Graphics Proceedings, Annual Conference Series, pp. 511–518, 2001.

[81] H. W. Jensen. “Global Illumination using Photon Maps.” In Eurographics Rendering Workshop 1996, pp. 21–30. Eurographics, 1996.

[82] H. W. Jensen. “Rendering Caustics on Non-Lambertian Surfaces.” In Proceedings of Graphics Interface 1992, pp. 116–121. Canadian Information Processing Society, 1996.

[83] H. W. Jensen. Realistic Image Synthesis Using Photon Mapping. Wellesley, MA: A K Peters, 2001.

[84] T. Tawara K. Myszkowski, P. Rokita. “Preceptually-Informed Accelrated Rendering of High Quality Walkthrough Sequences.” Proceedings of the 10th Eurographics Workshop on Rendering, pp. 5–18.

[85] J. T. Kajiya. “The Rendering Equation.” Computer Graphics (SIGGRAPH ‘86 Proceedings) 20:4 (1986), 143–150.

[86] M. H. Kalos and P. Whitlock. The Monte Carlo method. Volume 1: Basics. J. Wiley and Sons, 1986.

[87] Jan Kautz, Peter-Pike Sloan, and John Snyder. “Fast, Arbitrary BRDF Shading for Low-Frequency Lighting using Spherical Harmonics.” In Eurographgics Rendering Workshop ‘02, pp. 291–296, 2002.

[88] Jan Kautz, J. Lehtinen, and T. Aila. “Hemispherical Rasterization for Self-Shadowing of Dynamic Objects.” In Eurographics Symposium on Rendering, pp. 179–184, 2004.

[89] A. Keller. “The Fast Calculation of Form Factors Using Low Discrepancy Sequences.” In Proceedings of the Spring Conference on Computer Graphics (SCCG ‘96), pp. 195–204, 1996.

[90] A. Keller. “Quasi-Monte Carlo Radiosity.” In Eurographics Rendering Workshop 1996, pp. 101–110, 1996.

[91] A. Keller. “Instant Radiosity.” In SIGGRAPH 97 Conference Proceedings, pp. 49–56, 1997.

[92] A. Keller. “Quasi-Monte Carlo methods for photorealistic image synthesis.” Ph.D. thesis, Universit¨at Kaiserslautern, Germany, 1997.

[93] A. J. F. Kok and F. W. Jansen. “Sampling Pattern Coherence for Sampling Area Light Sources.” In Third Eurographics Workshop on Rendering, p. 283, 1992.

[94] A. J. F. Kok. “Ray Tracing and Radiosity Algorithms for Photorealistic Images Synthesis.” Ph.D. thesis, Technische Universiteit Delft, The Netherlands, 1994.

[95] C. Kolb, D. Mitchell, and P. Hanrahan. “A Realistic Camera Model for Computer Graphics.” In Computer Graphics Proceedings, Annual Conference Series, 1995 (SIGGRAPH 1995), pp. 317–324, 1995.

[96] T. Kollig and A. Keller. “Efficient Multidimensional Sampling.” Computer Graphics Forum 21:3 (2002), 557–564.

[97] Thomas Kollig and Alexander Keller. “Efficient Illumination by High Dynamic Range Images.” In Eurographics Symposium on Rendering: 14th Eurographics Workshop on Rendering, pp. 45–51, 2003.

[98] R. Kress. Linear Integral Equations. New York: Springer Verlag, 1989.

[99] Frank Suykens-De Laet. “On Robust Monte Carlo Algorithms for Multi-Pass Global Illumination.” Ph.D. thesis, Dept. of Computer Science, Katholieke Universiteit Leuven, 2002.

[100] E. P. Lafortune and Y. D. Willems. “Bi-Directional Path Tracing.” In Proceedings of Third International Conference on Computational Graphics and Visualization Techniques (Compugraphics ‘93), pp. 145– 153, 1993.

[101] E. P. Lafortune and Y. D. Willems. “The Ambient Term as a Variance Reducing Technique for Monte Carlo Ray Tracing.” In Fifth Eurographics Workshop on Rendering, pp. 163–171. New York: Springer Verlag, 1994.

[102] E. P. Lafortune and Y. D. Willems. “A Theoretical Framework for Physically Based Rendering.” Computer Graphics Forum 13:2 (1994), 97–107.

[103] E. P. Lafortune and Y. D. Willems. “A 5D Tree to Reduce the Variance of Monte Carlo Ray Tracing.” In Rendering Techniques ’95 (Proceedings of the Eurographics Workshop on Rendering, Dublin, Ireland, pp. 11–20, 1995.

[104] E. P. Lafortune and Y. D. Willems. “Rendering Participating Media with Bidirectional Path Tracing.” In Eurographics Rendering Workshop 1996, pp. 91–100, 1996.

[105] E. P. Lafortune, Sing-Choong Foo, K. Torrance, and D. Greenberg. “Non-Linear Approximation of Reflectance Functions.” In Computer Graphics (SIGGRAPH ‘97 Proceedings), Annual Conference Series, pp. 117–126, 1997.

[106] E. Languenou, K. Bouatouch, and P. Tellier. “An Adaptive Discretization Method for Radiosity.” Computer Graphics Forum 11:3 (1992), C205–C216.

[107] Greg Ward Larson and Rob Shakespeare. Rendering with Radiance: The Art and Science of Lighting Visualization. San Fransisco, CA: Morgan Kaufmann Books, 1998.

[108] Patrick Ledda, Alan Chalmers, Tom Troscianko, and Helge Seetzen. “Evaluation of Tone Mapping Operators using a High Dynamic Range Display.” ACM Transactions on Graphics 24:3 (2005), 640–648.

[109] H. P. A. Lensch, M. Goesele, Ph. Bekaert, J. Kautz, M. A. Magnor, J. Lang, and Hans-Peter Seidel. “Interactive Rendering of Translucent Objects.” In Proceedings of Pacific Graphics, pp. 214–224, 2002.

[110] Mark Levoy and Pat Hanrahan. “Light Field Rendering.” In Computer Graphics (SIGGRAPH 1996 Proceedings), pp. 31–42, 1996.

[111] D. Lischinski, F. Tampieri, and D. P. Greenberg. “Discontinuity Meshing for Accurate Radiosity.” IEEE Computer Graphics and Applications 12:6 (1992), 25–39.

[112] D. Lischinski, B. Smits, and D. P. Greenberg. “Bounds and Error Estimates for Radiosity.” In Proceedings of SIGGRAPH ‘94, pp. 67– 74, 1994.

[113] Xinguo Liu, Peter-Pike Sloan, Heung-Yeung Shum, and John Snyder. “All-Frequency Precomputed Radiance Transfer for Glossy Objects.” In Rendering Techniques 2004 Eurographics Symposium on Rendering, 2004.

[114] Thurstone L.L. “The Method of Paired Comparisons for Social Values.” Journal of Abnormal and Social Psychology :21 (1927), 384–400.

[115] G. Meyer M. Bolin. “A Perceptually Based Adaptive Sampling Algorithm.” SIGGRAPH 98 Conference Proceedings, pp. 299–310.

[116] D. Greenberg M. Ramasubramanian, S. Pattanaik. “A Perceptually Based Physical Error Metric for Realistic Image Synthesis.” SIGGRAPH 99 Conference Proceedings, pp. 73–82.

[117] Yang J.N. Maloney L.T. “Maximum Likelihood Difference Scaling.” Journal of Vision 3:8 (2003), 573–585.

[118] Vincent Masselus. “A Practical Framework for Fixed Viewpoint Image-based Relighting.” Ph.D. thesis, Dept. of Computer Science, Katholieke Universiteit Leuven, 2004.

[119] N. Metropolis, A. W. Rosenbluth, M. N. Rosenbluth, H. Teller, and E. Teller. “Equations of State Calculations by Fast Computing Machines.” Journal of Chemical Physics 21:6 (1953), 1087–1092.

[120] Tomas M¨oller and Eric Haines. Real-Time Rendering. Natcik, MA: A K Peters, 1999.

[121] K. Myszkowski. “Lighting Reconstruction Using Fast and Adaptive Density Estimation Techniques.” In Eurographics Rendering Workshop 1997, pp. 251–262, 1997.

[122] K. Myszkowski. “The Visible Differences Predictor: Applications to Global Illumination Problems.” Proceedings of the Ninth Eurographics Workshop on Rendering, pp. 223–236.

[123] L. Neumann, M. Feda, M. Kopp, and W. Purgathofer. “A New Stochastic Radiosity Method for Highly Complex Scenes.” In Fifth Eurographics Workshop on Rendering, pp. 195–206. Darmstadt, Germany, 1994.

[124] L. Neumann, W. Purgathofer, R. Tobler, A. Neumann, P. Elias, M. Feda, and X. Pueyo. “The Stochastic Ray Method for Radiosity.” In Rendering Techniques ’95 (Proceedings of the Sixth Eurographics Workshop on Rendering), 1995.

[125] L. Neumann, R. F. Tobler, and P. Elias. “The Constant Radiosity Step.” In Rendering Techniques ’95 (Proceedings of the Sixth Eurographics Workshop on Rendering), pp. 336–344, 1995.

[126] A. Neumann, L. Neumann, Ph. Bekaert, Y. D. Willems, and W. Purgathofer. “Importance-Driven Stochastic Ray Radiosity.” In Eurographics Rendering Workshop 1996, pp. 111–122, 1996.

[127] L. Neumann, A. Neumann, and Ph. Bekaert. “Radiosity with Well Distributed Ray Sets.” Computer Graphics Forum 16:3.

[128] L. Neumann. “Monte Carlo Radiosity.” Computing 55:1 (1995), 23– 42.

[129] Ren Ng, Ravi Ramamoorthi, and Pat Hanrahan. “All-Frequency Shadows using Non-Linear Wavelet Lighting Approximation.” ACM Transactions on Graphics 22:3 (2003), 376–381.

[130] Ren Ng, Ravi Ramamoorthi, and Pat Hanrahan. “Triple Product Wavelet Integrals for All-Frequency Relighting.” ACM Transactions on Graphics 23:3 (2004), 477–487.

[131] F. E. Nicodemus, J. C. Richmond, J. J. Hsia, I. W. Ginsberg, and T. Limperis. “Geometric Considerations and Nomenclature for Reflectance.” In Monograph 161. National Bureau of Standards (US), 1977.

[132] H. Niederreiter. Random Number Generation and Quasi-Monte Carlo Methods, CBMS-NSF regional conference series in Appl. Math., 63. Philadelphia: SIAM, 1992.

[133] T. Nishita and E. Nakamae. “Continuous Tone Representation of 3-D Objects Taking Account of Shadows and Interreflection.” Computer Graphics (SIGGRAPH ’85 Proceedings) 19:3 (1985), 23–30.

[134] Marc Olano, John C. Hart, Wolfgang Heidrich, and Michael McCool. Real-Time Shading. Natick, MA: A K Peters, 2001.

[135] Guilford J. P. Psychometric Methods. New York: McGraw-Hill, 1954.

[136] E. Paquette, P. Poulin, and G. Drettakis. “A Light Hierarchy for Fast Rendering of Scenes with Many Lights.” Eurographics 98 17:3 (1998), pp. 63–74.

[137] Steven Parker, William Martin, Peter-Pike Sloan, Peter Shirley, Brian Smits, and Chuck Hansen. “Interactive Ray Tracing.” In Interactive 3D Graphics (I3D), pp. 119–126, 1999.

[138] S. N. Pattanaik and S. P. Mudur. “Computation of Global Illumination by Monte Carlo Simulation of the Particle Model of Light.” Third Eurographics Workshop on Rendering, pp. 71–83.

[139] S. N. Pattanaik and S. P. Mudur. “The Potential Equation and Importance in Illumination Computations.” Computer Graphics Forum 12:2 (1993), 131–136.

[140] S. N. Pattanaik and S. P. Mudur. “Adjoint Equations and Random Walks for Illumination Computation.” ACM Transactions on Graphics 14:1 (1995), 77–102.

[141] S. Pattanaik, J. Tumblin, H. Yee, and D. Greenberg. “Time-Dependent Visual Adaption for Fast Realistic Image Display.” Proceedings of SIGGRAPH 2000, pp. 47–54.

[142] M. Pellegrini. “Monte Carlo Approximation of Form Factors with Error Bounded A Priori.” In Proc. of the 11th. annual symposium on Computational Geometry, pp. 287 – 296. New York: ACM Press, 1995.

[143] F. Perez-Cazorla, X. Pueyo, and F. Sillion. “Global Illumination Techniques for the Simulation of Participating Media.” In Proceedings of the Eighth Eurographics Workshop on Rendering. Saint Etienne, France, 1997.

[144] Matt Pharr and Randima Fernando. GPU Gems 2: Programming Techniques for High-Performance Graphics and General-Purpose Computation. Reading, MA: Addison-Wesley Professional, 2005.

[145] M. Pharr and P. M. Hanrahan. “Monte Carlo Evaluation Of Non Linear Scattering Equations For Subsurface Reflection.” In Proceedings of ACM SIGGRAPH 2000, Computer Graphics Proceedings, Annual Conference Series, pp. 75–84, 2000.

[146] Matt Pharr, Craig Kolb, Reid Gershbein, and Pat Hanrahan. “Rendering Complex Scenes with Memory-Coherent Ray Tracing.” In Computer Graphics (SIGGRAPH 1997 Proceedings), pp. 101–108, 1997.

[147] Bui-T. Phong and F. C. Crow. “Improved Rendition of Polygonal Models of Curved Surfaces.” In Proceedings of the 2nd USA-Japan Computer Conference, 1975.

[148] A. J. Preetham, P. Shirley, and B. Smits. “A Practical Analytic Model for Daylight.” In SIGGRAPH 99 Conference Proceedings, Annual Conference Series, pp. 91–100, 1999.

[149] W. H. Press, S. A. Teukolsky, W. T. Vetterling, and B. P. Flannery. Numerical Recipes in FORTRAN, Second edition. Cambridge, UK: Cambridge University Press, 1992.

[150] Paul Rademacher, Jed Lengyel, Ed Cutrell, and Turner Whitted. “Measuring the Perception of Visual Realism in Images.” In Rendering Techniques 2001: 12th Eurographics Workshop on Rendering, pp. 235– 248, 2001.

[151] Ravi Ramamoorthi and Pat Hanrahan. “An Efficient Representation for Irradiance Environment Maps.” In SIGGRAPH ’01: Proceedings of the 28th annual conference on Computer graphics and interactive techniques, pp. 497–500, 2001.

[152] Alexander Reshetov, Alexei Soupikov, and Jim Hurley. “Multi-Level Ray Tracing Algorithm.” SIGGRAPH: ACM Trans. Graph. 24:3 (2005), 1176–1185.

[153] R. Y. Rubinstein. Simulation and the Monte Carlo method. New York: J. Wiley and Sons, 1981.

[154] H. E. Rushmeier and K. E. Torrance. “The Zonal Method for Calculating Light Intensities in the Presence of a Participating Medium.” In Computer Graphics (Proceedings of SIGGRAPH 87), pp. 293–302, 1987.

[155] L. Santal´o. Integral Geometry and Geometric Probability. Reading, Mass: Addison-Welsey, 1976.

[156] Mirko Sattler, Ralf Sarlette, Thomas Mücken, and Reinhard Klein. “Exploitation of Human Shadow Perception for Fast Shadow Rendering.” In APGV 2005, pp. 131–134, 2005.

[157] M. Sbert, X. Pueyo, L. Neumann, and W. Purgathofer. “Global Multipath Monte Carlo Algorithms for Radiosity.” The Visual Computer 12:2 (1996), 47–61.

[158] M. Sbert, A. Brusi, R. Tobler, and W. Purgathofer. “Random Walk Radiosity with Generalized Transition Probabilities.” Technical Report IIiA-98-07-RR, Institut d’Inform`atica i Aplicacions, Universitat de Girona, 1998.

[159] M. Sbert, A. Brusi, and Ph. Bekaert. “Gathering for Free in Random Walk Radiosity.” In Rendering Techniques ‘99 (Proceedings of the 10th Eurographics Workshop on Rendering, Granada, Spain), pp. 97–102. Springer Computer Science, 1999.

[160] M. Sbert. “An Integral Geometry Based Method for Fast Form-Factor Computation.” Computer Graphics Forum 12:3 (1993), C409– C420.

[161] M. Sbert. “The Use of Global Random Directions to Compute Radiosity—Global Monte Carlo Techniques.” Ph.D. thesis, Universitat Polit`ecnica de Catalunya, Barcelona, Spain, 1996.

[162] M. Sbert. “Error and Complexity of Random Walk Monte Carlo Radiosity.” IEEE Transactions on Visualization and Computer Graphics 3:1 (1997), 23–38.

[163] M. Sbert. “Optimal Source Selection in Shooting Random Walk Monte Carlo Radiosity.” Computer Graphics Forum 16:3 (1997), 301– 308.

[164] P. Schröder. “Numerical Integration for Radiosity in the Presence of Singularities.” In 4 th Eurographics Workshop on Rendering, Paris, France, pp. 177–184, 1993.

[165] Peter Shirley and Kenneth Chiu. “A Low Distortion Map Between Disk and Square.” Journal of Graphics Tools 2:3 (1997), 45–52.

[166] P. Shirley, B. Wade, Ph. M. Hubbard, D. Zareski, B. Walter, and Donald P. Greenberg. “Global Illumination via Density Estimation.” In Rendering Techniques ’95 (Proceedings of the Sixth Eurographics Workshop on Rendering), pp. 219–230, 1995.

[167] P. Shirley. “A Ray Tracing Method for Illumination Calculation in Diffuse–Specular Scenes.” In Graphics Interface ‘90, pp. 205–212, 1990.

[168] P. Shirley. “Radiosity via Ray Tracing.” In Graphics Gems II, edited by J. Arvo, pp. 306–310. Boston: Academic Press, 1991.

[169] P. Shirley. “Time Complexity of Monte Carlo Radiosity.” In Eurographics ’91, pp. 459–465, 1991.

[170] P. Shirley. Realistic Ray Tracing. Natick, MA: A K Peters, 2000.

[171] F. Sillion and C. Puech. “A General Two-Pass Method Integrating Specular and Diffuse Reflection.” In Computer Graphics (SIGGRAPH ’89 Proceedings), pp. 335–344, 1989.

[172] F. Sillion and C. Puech. Radiosity and Global Illumination. San Francisco: Morgan Kaufmann, 1994.

[173] F. Sillion, J. Arvo, S. Westin, and D. Greenberg. “A Global Illumination Solution for General Reflectance Distributions.” Computer Graphics (SIGGRAPH ’91 Proceedings) 25:4 (1991), 187–196.

[174] F. Sillion. “A Unified Hierarchical Algorithm for Global Illumination with Scattering Volumes and Object Clusters.” IEEE Transactions on Visualization and Computer Graphics 1:3 (1995), 240–254.

[175] B. W. Silverman. Density Estimation for Statistics and Data Analysis. London: Chapman and Hall, 1986.

[176] Maryann Simmons and Carlo H. Séquin. “Tapestry: A Dynamic Mesh-based Display Representation for Interactive Rendering.” In Eleventh Eurographics Workshop on Rendering, pp. 329–340, 2000.

[177] Peter-Pike Sloan, Jan Kautz, and John Snyder. “Precomputed Radiance Transfer for Real-Time Rendering in Dynamic, Low-Frequency Lighting Environments.” In SIGGRAPH ’02, pp. 527–536, 2002.

[178] Peter-Pike Sloan, Jesse Hall, John Hart, and John Snyder. “Clustered Principal Components for Precomputed Radiance Transfer.” ACM Transactions on Graphics 22:3 (2003), 382–391.

[179] Peter-Pike Sloan, Xinguo Liu, Heung-Yeung Shum, and John Snyder. “Bi-Scale Radiance Transfer.” ACM Trans. Graph. 22:3 (2003), 370– 375.

[180] Peter-Pike Sloan, Ben Luna, and John Snyder. “Local, Deformable Precomputed Radiance Transfer.” ACM Trans. Graph. 24:3 (2005), 1216–1224.

[181] B. Smits, J. Arvo, and D. Salesin. “An Importance-Driven Radiosity Algorithm.” In Computer Graphics (SIGGRAPH ’92 Proceedings), pp. 273–282, 1992.

[182] B. Smits, J. Arvo, and D. Greenberg. “A Clustering Algorithm for Radiosity in Complex Environments.” In SIGGRAPH ’94 Proceedings, pp. 435–442, 1994.

[183] J. Spanier and E. M. Gelbard. Monte Carlo Principles and Neutron Transport Problems. Reading, MA: Addison-Wesley, 1969.

[184] J. Stam and E. Languenou. “Ray Tracing in Non-Constant Media.” In Proceedings of the 7th Eurographics Workshop on Rendering, pp. 225–234, 1996.

[185] J. Stam. “Multiple Scattering as a Diffusion Process.” In Proceedings of the 6th Eurographics Workshop on Rendering, pp. 51–58, 1995.

[186] J. Stam. “Diffraction Shaders.” In SIGGRAPH 99 Conference Proceedings, Annual Conference Series, pp. 101–110, 1999.

[187] William A. Stokes, James A. Ferwerda, Bruce Walter, and Donald P. Greenberg. “Perceptual Illumination Components: A New Approach to Efficient, High Quality Global Illumination Rendering.” ACM Transactions on Graphics 23:3 (2004), 742–749.

[188] I. E. Sutherland. “Sketchpad–A Man-Machine Graphical Communication System.” Technical Report 296, MIT Lincoln Laboratory, 1963.

[189] L. Szirmay-Kalos and W. Purgathofer. “Global Ray-bundle Tracing with Hardware Acceleration.” In Ninth Eurographics Workshop on Rendering. Vienna, Austria, 1998.

[190] L. Szirmay-Kalos and W. Purgathofer. “Analysis of the Quasi-Monte Carlo Integration of the Rendering Equation.” In WSCG ’99 (Seventh International Conference in Central Europe on Computer Graphics, Visualization and Interactive Digital Media), pp. 281–288, 1999.

[191] L. Szirmay-Kalos, T. Foris, L. Neumann, and C. Balasz. “An Analysis of Quasi-Monte Carlo Integration Applied to the Transillumination Radiosity Method.” Computer Graphics Forum (Eurographics ’97 Proceedings) 16:3. 271–281.

[192] L. Szirmay-Kalos, C. Balasz, and W. Purgathofer. “Importance-Driven Quasi-Random Walk Solution of the Rendering Equation.” Computers and Graphics 23:2 (1999), 203–211.

[193] L. Szirmay-Kalos. “Stochastic Iteration for Non-Diffuse Global Illumination.” Computer Graphics Forum 18:3 (1999), 233–244.

[194] Whitted T. “An Improved Illumination Model for Shaded Display.” Communications of the ACM 23:6 (1980), 343–349.

[195] Justin Talbot, David Cline, and Parris Egbert. “Importance Resampling for Global Illumination.” In Rendering Techniques 2005: 16th Eurographics Workshop on Rendering, pp. 139–146, 2005.

[196] Seth Teller, Kavita Bala, and Julie Dorsey. “Conservative Radiance Interpolants for Ray Tracing.” In Seventh Eurographics Workshop on Rendering, pp. 258–269, 1996.

[197] R. Tobler, A. Wilkie, M. Feda, and W. Purgathofer. “A Hierarchical Subdivision Algorithm for Stochastic Radiosity Methods.” In Eurographics Rendering Workshop 1997, pp. 193–204, 1997.

[198] Parag Tole, Fabio Pellacini, Bruce Walter, and Donald Green-berg. “Interactive Global Illumination.” In Computer Graphics (SIGGRAPH 2002 Proceedings), 2002.

[199] J. Tumblin and H. E. Rushmeier. “Tone Reproduction for Realistic Images.” IEEE Computer Graphics and Applications 13:6 (1993), 42– 48.

[200] E. Veach and L. J. Guibas. “Bidirectional Estimators for Light Transport.” In Fifth Eurographics Workshop on Rendering, pp. 147–162. Darmstadt, Germany, 1994.

[201] E. Veach and L. J. Guibas. “Optimally Combining Sampling Techniques for Monte Carlo Rendering.” In SIGGRAPH 95 Conference Proceedings, pp. 419–428, 1995.

[202] Eric Veach and Leonidas J. Guibas. “Metropolis Light Transport.” In Computer Graphics Proceedings, Annual Conference Series, 1997 (SIGGRAPH 1997), 1997.

[203] E. Veach. “Non-Symmetric Scattering in Light Transport Algorithms.” In Eurographics Rendering Workshop 1996, pp. 81–90, 1996.

[204] E. Veach. “Robust Monte Carlo Methods for Light Transport Simulation.” Ph.D. thesis, Stanford university, Department of Computer Science, 1997.

[205] Edgar Velzquez-Armendriz, Eugene Lee, Bruce Walter, and Kavita Bala. “Implementing the Render Cache and the Edge-and-Point Image on Graphics Hardware.” Graphics Interface, 2006.

[206] V. Volevich, K. Myszkowski, A. Khodulev, and E. A. Kopylov. “Using the Visual Differences Predictor to Improve Performance of Progressive Global Illumination Computations.” ACM Transactions on Graphics 19:2 (2000), 122–161.

[207] Ingo Wald and Philipp Slusallek. “State of the Art in Interactive Ray Tracing.” In State of the Art Reports, EUROGRAPHICS 2001, pp. 21–42, 2001.

[208] Ingo Wald, Carsten Benthin, Markus Wagner, and Philipp Slusallek. “Interactive Rendering with Coherent Ray Tracing.” In Proc. of Eurographics, pp. 153–164, 2001.

[209] J. R. Wallace, M. F. Cohen, and D. P. Greenberg. “A Two-Pass Solution to the Rendering Equation: A Synthesis of Ray Tracing and Radiosity Methods.” Computer Graphics (SIGGRAPH ’87 Proceedings) 21:4 (1987), 311–320.

[210] B. Walter, Ph. M. Hubbard, P. Shirley, and D. F. Greenberg. “Global Illumination Using Local Linear Density Estimation.” ACM Transactions on Graphics 16:3 (1997), 217–259.

[211] Bruce Walter, George Drettakis, and Steven Parker. “Interactive Rendering using the Render Cache.” In Tenth Eurographics Workshop on Rendering, pp. 19–30, 1999.

[212] Bruce Walter, George Drettakis, and Donald Greenberg. “Enhancing and Optimizing the Render Cache.” In Thirteenth Eurographics Workshop on Rendering, pp. 37–42, 2002.

[213] Bruce Walter, Sebastian Fernandez, Adam Arbree, Kavita Bala, Michael Donikian, and Donald P. Greenberg. “Lightcuts: A Scalable Approach to Illumination.” SIGGRAPH: ACM Trans. Graph. 24:3 (2005), 1098–1107.

[214] Bruce Walter, Adam Arbree, Kavita Bala, and Donald P. Green-berg. “Multidimensional Lightcuts.” To appear in SIGGRAPH: ACM Trans. Graph., 2006.

[215] Rui Wang, John Tran, and David Luebke. “All-Frequency Relighting of Non-Diffuse Objects Using Separable BRDF Approximation.” In Rendering Techniques 2004 Eurographics Symposium on Rendering, pp. 345–354, 2004.

[216] Rui Wang, John Tran, and David Luebke. “All-Frequency Interactive Relighting of Translucent Objects with single and multiple scattering.” ACM Trans. Graph. 24:3 (2005), 1202–1207.

[217] G. J. Ward and P. Heckbert. “Irradiance Gradients.” In Rendering in Computer Graphics (Proceedings of the Third Eurographics Workshop on Rendering), pp. 85–98, 1992.

[218] Greg Ward and Maryann Simmons. “The Holodeck Ray Cache: An Interactive Rendering System for Global Illumination.” ACM Transactions on Graphics 18:4 (1999), 361–398.

[219] G. J. Ward, F. M. Rubinstein, and R. D. Clear. “A Ray Tracing Solution for Diffuse Interreflection.” In Computer Graphics (SIGGRAPH 1988 Proceedings), pp. 85–92, 1988.

[220] G. J. Ward. “Real Pixels.” In Graphics Gems II, edited by James Arvo, pp. 80–83. Boston: Academic Press, 1991.

[221] G. J. Ward. “Measuring and modeling anisotropic reflection.” In Computer Graphics (SIGGRAPH 1992 Proceedings), pp. 265–272, 1992.

[222] G. Ward. “A Contrast-Based Scalefactor for Luminance Display.” InGraphics Gems 4, edited by Paul S. Heckbert, pp. 415–421. Boston: Academic Press, 1994.

[223] G. J. Ward. “Adaptive Shadow Testing for Ray Tracing.” In Photorealistic Rendering in Computer Graphics (Proceedings of the Second Eurographics Workshop on Rendering), pp. 11–20, 1994.

[224] W. Wasow. “A Comment on the Inversion of Matrices by Random Walks.” Math. Tabl. Aids. Comput. 6 (1952), 78–81.

[225] M. Watt. “Light-Water Interaction using Backward Beam Tracing.” In Computer Graphics (SIGGRAPH 1990 Proceedings), pp. 377–85, 1990.

[226] A Wilkie, R. Tobler, and W Purgathofer. “Combined Rendering of Polarization and Fluorescence Effects.” In Proceedings of Eurographics Workshop on Rendering 2001, pp. 11–20, 2001.

[227] Hector Yee, Sumanta Pattanaik, and Donald P. Greenberg. “Spatiotemporal Sensitivity and Visual Attention for Efficient Rendering of Dynamic Environments.” ACM Transactions on Graphics 20:1 (2001), pp. 39–65.

[228] H. R. Zatz. “Galerkin Radiosity: A Higher Order Solution Method for Global Illumination.” In Computer Graphics Proceedings, Annual Conference Series, 1993, pp. 213–220, 1993.

[229] Kun Zhou, Yaohua Hu, Stephen Lin, Baining Guo, and Heung-Yeung Shum. “Precomputed Shadow Fields for Dynamic Scenes.” ACM Trans. Graph. 24:3 (2005), 1196–1201.

[230] K. Zimmerman and P. Shirley. “A Two-Pass Realistic Image Synthesis Method for Complex Scenes.” In Rendering Techniques 1995 (Proceedings of the Sixth Eurographics Workshop on Rendering), pp. 284– 295. New York: Springer-Verlag, 1995.

..................Content has been hidden....................

You can't read the all page of ebook, please click here login for view all page.

Table of Contents for Bibliography

Create new playlist

Sign In

Sign Up

Bibliography

Table of Contents for
Bibliography