Stephen H. Westin
- 1.Cabral, B., Max, N., and Springmeyer, R., Bidirectional reflection functions from surface bump maps. In Proceedings of SIGGRAPH '87(July 27-31, 1987, Anaheim, California), Computer Graphics 21, 4 (July 1990), 273-281. Google Scholar
Digital Library
- 2.Cook, R. L, and Torrance, K. E. A reflectance model for computer graphics, ACM Transactions on Graphics 1, 1 (January 1982), 7-24. Google ScholarDigital Library
- 3.Gouraud, H. Continuous shading for curved surfaces. IEEE Transactions on Computers 20, 6 (June 1971), 623-628.Google ScholarDigital Library
- 4.Hecht, E., and Zajac, A. Optics. Addison-Wesley, 1974.Google Scholar
- 5.He, X. D., Torrance, K. E., Sillion, E X., and Greenberg, D. P. A comprehensive physical model for light reflection. In Proceedings of SIGGRAPH '91(July 28-August 2, 1991, Las Vegas, Nevada), Computer Graphics 25, 4 (July 1991), 175- 186. Google ScholarDigital Library
- 6.Goral, C. M., Torrance, K. E., Greenberg, D. P., and Battaile, B. Modeling the interaction of light between diffuse surfaces. In Proceedings of SIGGRAPH '84(July 23-27, 1984, Minneapolis, Minnesota), Computer Graphics 18, 3 (July 1984),213-222. Google ScholarDigital Library
- 7.Kajiya, J. The rendering equation. In Proceedings of SIG- GRAPH '86(August 18-22, 1986, Dallas, Texas), Computer Graphics 20, 4 (August 1986), 143-150. Google ScholarDigital Library
- 8.Kajiya, J. Anisotropic reflectance models. In Proceedings of SIGGRAPH '85(July 22-26, 1985, San Francisco, California), Computer Graphics 19, 4 (July 1985), 15-21. Google ScholarDigital Library
- 9.Kajiya, J., and Von Herzen, B. Ray tracing volume densities. In Proceedings of SIGGRAPH '84(July 23-27, 1984, Minneapolis, Minnesota), Computer Graphics 18, 3 (July 1984), 165-174. Google ScholarDigital Library
- 10.Kalos, M, H., and Whitlock, P. A. Monte Carlo Methods. John Wiley & Sons, 1986. Google ScholarDigital Library
- 11.Poulin, P., and Fournier, A. A model for anisotropic reflection. In Proceedings of SIGGRAPH '90 (August 6-10, 1990, Dallas, Texas), Computer Graphics 24, 4 (August 1990), 273-282. Google ScholarDigital Library
- 12.Phong, B-T. Illumination for computer generated pictures., Communications of the ACM 18, 6 (June 1975), 311- 317. Google ScholarDigital Library
- 13.Sillion, E X., Arvo, J., Westin, S. H., and Greenberg, D. P. A global illumination solution for general reflectance distributions. In Proceedings of SIGGRAPH "9i (July 28-August 2, 1991, Las Vegas, Nevada), Computer Graphics 25, 4 (July 1991), t87-196. Google ScholarDigital Library
- 14.Siegel, R., and Howell, J. R. Thermal Radiation Heat Transfer. Hemisphere Publishing, New York, 1981.Google Scholar
- 15.Torrance, K. E. and Sparrow, E. M. Theory for offspecular reflection from roughened surfaces. In Journal of the Optical Society of America 57, 9 (September 1967) 1105- 1114.Google Scholar
- 16.Torrance, K. E. and Sparrow, E. M. Off-specular peaks in the directional distribution of reflected thermal radiation. In Journal of Heat Transfer (May 1966) 223-230.Google Scholar
- 17.Wallace, P. R. Mathematical Analysis of Physical Problems. Dover Publications, Mineola, N. Y. 1984.Google Scholar
- 18.Ward, G. J., Rubinstein, E M. and Clear, R. D. A ray tracing solution for diffuse interreflection. In Proceedings of SIGGRAPH '88 (August 1-5, 1988, Atlanta, Georgia), Computer Graphics 24, 4 (August 1988), 85-92. Google ScholarDigital Library
- 19.Whitted, T. An improved illumination model for shaded display. In Communications of the ACM 23, 6 (June 1980) 343- 349. Google ScholarDigital Library
Index Terms
- Predicting reflectance functions from complex surfaces
Recommendations
Generalization of Lambert's reflectance model
SIGGRAPH '94: Proceedings of the 21st annual conference on Computer graphics and interactive techniquesLambert's model for body reflection is widely used in computer graphics. It is used extensively by rendering techniques such as radiosity and ray tracing. For several real-world objects, however, Lambert's model can prove to be a very inaccurate ...
Printing reflectance functions
The reflectance function of a scene point captures the appearance of that point as a function of lighting direction. We present an approach to printing the reflectance functions of an object or scene so that its appearance is modified correctly as a ...
Wavelength dependent reflectance functions
SIGGRAPH '94: Proceedings of the 21st annual conference on Computer graphics and interactive techniquesA wavelength based bidirectional reflectance function is developed for use in realistic image synthesis. A geodesic sphere is employed to represent the BRDF, and a novel data structure is used to store this description and to recall it for rendering ...
Comments