“Illumination from curved reflectors” by Mitchell and Hanrahan
Conference:
Type(s):
Title:
- Illumination from curved reflectors
Presenter(s)/Author(s):
Abstract:
No abstract available.
References:
1. Appel, A. Some techniques for shading machine renderings of solids. AFIPS 1968 Spring Joint Computer Conf. 32 (1968), 37-45.
2. Arvo, J. Backward ray tracing. Developments in Ray Tracing SIGGRAPH Course Notes, 12 (1986).
3. Berry, M. V., Upstill, C., Catastrophe Optics: Morphologies of Caustics and their Diffraction Patterns, Progress in Optics XVIII, (1980), 259- 346.
4. Born, M. and Wolf, E., Principles of Optics. Pergamon, 1980.
5. Chen, S. E., Rushmeier, H. E., Miller, G., Turner, D., A Progressive Multi-Pass Method for Global Illumination Computer Graphics 25, 4 (1991), 165-174.
6. Dill, John C., An Application of Color Graphics to the Display of Surface Curvature Computer Graphics 15, 3 (1981), 153-161.
7. Forrest, A. R., On the Rendering of StLrfaces. Computer Graphics 13, 2 (1979), 253-259.
8. Gullstrand, A. Die reelle optische Abbildung. Sv. Vetensk. Handl. 41, (1906), 1-119.
9. Heckbert, P. Adaptive Radiosity Textures for Bidrectional Ray Tracing. Computer Graphics, 24, 4 (August 1990), 145-154.
10. Kneisly, J. A. III, Local curvature of wavefronts in an optical system. J. Opt. Soc. Amer. 54, (1964), 229-235.
11. Mitchell, D. P. Robust ray intersection with interval arithmetic. Graphics Interface 90, (May 1990) 68-74.
12. Moore, R. E., Methods and applications of interval analysis. SIAM, 1979.
13. Murdur, S. P., Koparkar, P. A., Interval methods for processing geometric objects. IEEE Computer Graphics and Applications, 4,2 (February 1984), 7-17.
14. Rail, Louis B., Automatic Differentiation: Techniques and Applications. Springer-Verlag, 1981.
15. Shinya, M., Takahashi, T, Naito, S. Principles and applications of pencil tracing. Computer Graphics, 21, 4 (July 1987), 45-54.
16. Shinya, M., Saito, T., Takahashi, T. Rendering techniques for transparent objects. Proc. Graphics Interface “89, (1989) 173-182.
17. Shirley, P. A ray tracing method for illumination calculation in diffuse-specular scenes. Proc. Graphics Interface ’90, (1990) 205-212.
18. Sillion, F., Puech, C., A General Two-Pass Method Integrating Specular and Diffuse Reflection. Computer Graphics 23, 3 (1989), 335-344.
19. Sparrow, E. J., Eckert, E. R. G., Jonsson, V. K., An Enclosure Theory for Radiative Exchange Between Specularly and Diffusely Reflecting Surfaces. Journal of Heat Transfer 84C,4, (1962).
20. Stavroudis, O. N. The Optics of Rays, Wavefronts, and Caustics, Academic, 1972.
21. Struik, Dirk J., Lectures on Classical Differential Geometry 2nd. Edition, Dover Publications, New York, 1961.
22. Toth, D. L. On ray tracing parametric surfaces. Computer Graphics, 19, 3 (July 1985), 171-179.
23. Wallace, J., Cohen, M. F., Greenberg, D. P., A Two-Pass Solution to the Rendering Equation: A Synthesis of Radiosity and Ray Tracing Methods. Computer Graphics 21, 4, (1987), 311-320.
24. Watt, M. Light-water interaction using backward beam tracing. Computer Graphics, 24, 4 (August 1990) 377-385.
25. Whitted, T. An improved illumination model for shaded display. Comm. ACM, 23, 6 (June 1980), 343-349.