M. 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), volume 22, pages 75--84, August 1988. Home/Search Document Not in Database Summary Related Articles Check |
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Hybrid Radiosity/Monte Carlo Methods - Shirley (1994) (2 citations) (Correct)
....surface, and then choose a random direction based on the surface normal at that point. Arvo s method can be extended to a radiosity[13] method by letting the Lambertian zones interreflect light[29, 1, 2, 38] This is really just a ray tracing variant of the progressive refinement radiosity method[7]. In this method, reflectance (# d;i ) and emitted power (F e;i )oftheith zone are known, and the reflected power (F r;i ) F r;i = # d F incoming;i ) is unknown. If we solve for F r;i ,then we can find F i , the total power coming from the ith patch. Once the total power of each patch is found, ....
....Radiosity Solution Gather from solution for small area zones Final (corrected) solution Figure 4: Zones with small areas have their radiance recalculated more accurately in a postprocess. iteration (each ray carries approximately the same amount of power) The other is that, unlike in [7], the zone with the most power is not searched for, or the time complexity of the method will increase from O#N log N# to O#N #,whereN is the number of zones[41] This problem can be avoided if a heap or similar structure is used to make the search for maximum O#log N# rather than O#N#. A more ....
Michael F. Cohen, Shenchang Eric Chen, John R. Wallace, and Donald P. Greenberg. A progressive refinement approach to fast radiosity image generation. Computer Graphics, 22(4):75--84, August 1988. ACM Siggraph '88 Conference Proceedings.
Global Illumination Techniques For The Computation Of High Quality .. - Perez (2002) (Correct)
....illumination problem and meshing the scene assuming constant radiosity per patch, a set of linear equations result, with form factors coupling pairs of patches. A notable improvement 6 on the resolution of this set of equations was the progressive refinement strategy, providing faster feedback [7]. A major breakthrough from the basic radiosity method was the introduction of the hierarchical radiosity method by Hanrahan et al. 12] who recognized the similarities between the radiosity problem and the N body problem. Links are built on the fly while establishing relationships between nodes ....
Michael Cohen, Shenchang Eric Chen, John R. Wallace, and Donald P. Greenberg. A Progressive Refinement Approach to Fast Radiosity Image Generation. In Computer Graphics (ACM SIGGRAPH '88 Proceedings),
Radioptimization - Goal Based Rendering - Kawai, Painter, Cohen (1993) (23 citations) Self-citation (Cohen) (Correct)
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Cohen, M., Chen, S., Wallace, J., and Greenberg, D. A progressive refinement approach to fast radiosity image generation. Computer Graphics (SIGGRAPH '88 Proceedings) 22, 4 (July 1988), 75--82.
Radioptimization - Goal Based Rendering - Kawai, Painter, Cohen (1993) (23 citations) Self-citation (Cohen) (Correct)
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Cohen, M., Chen, S., Wallace, J., and Greenberg, D. A progressive refinement approach to fast radiosity image generation. Computer Graphics (SIGGRAPH '88 Proceedings) 22, 4 (July 1988), 75--82.
Radiosity and Relaxation Methods - Progressive.. - Gortler, Cohen.. (1993) (7 citations) Self-citation (Cohen) (Correct)
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Cohen, M., Chen, S. E., Wallace, J., and Greenberg, D. A Progressive Refinement Approach to Fast Radiosity Image Generation. Computer Graphics 22, 4 (July 1988), 75--84.
Image Quality Metrics - Alan Chalmers Scott (3 citations) (Correct)
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M. 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), volume 22, pages 75--84, August 1988.
PHR: A Parallel Hierarchical Radiosity System with Dynamic.. - Ali Kemal Sinop (Correct)
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Cohen, M., S. Chen, J. Wallace, and D. Greenberg: 1988, `A ProgressiveRefinement ApproachtoFast Radiosity Image Generation'. In: ACM Computer Graphics (Proc. of SIGGRAPH'88),Vol. 22. pp. 75--84.
Exploiting Shadow Coherence in Ray Tracing - Andrew Pearce Alias (1991) (4 citations) (Correct)
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Cohen, M., S. E. Chen, J. Wallace, and D. Greenberg, "A Progressive Refinement Approach to Fast Radiosity Image Generation," Computer Graphics (SIGGRAPH'88), 22(4), pp. 75-84, 1988.
Anti-Aliased Hemicubes for Performance Improvement in.. - Kiran, Mudur.. (2001) (Correct)
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M. Cohen, S. E. Chen, J. Wallace, and D. P. Greenberg, "A progressive refinement approach to fast radiosity
A Progressive Radiosity Algorithm Based on Piecewise Polynomial.. - Jin, Peng (1997) (Correct)
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M. F. Cohen, S. E. Chen, J. R. Wallace, and D. P. Greenberg, A progressive refinement approach to fast radiosity image generation. Comp. Graph., 22(4),75-84(1988).
Multiresolution B-spline Radiosity - Yu, Peng (1 citation) (Correct)
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M.F.Cohen, S.E.Chen, J.R.Wallace, D.P.Greenberg, "A Progressive Refinement Approach to Fast Radiosity Image Generation," Computer Graphics, 22(4), 1988, pp.75--84.
To Scene Characteristics - For Ray Tracing (Correct)
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M.F. Cohen, S.E. Chen, J.R. Wallace, and D.P. Greenberg. A progressive refinement approach to fast radiosity image generation. Computer Graphics, 22(4):75--84, August 1988.
Priority-Driven Acoustic Modeling for Virtual Environments - Min, Funkhouser (2002) (1 citation) (Correct)
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M. Cohen, S. Chen, and J. W. D. Greenberg, "A progressive refinement approach to fast radiosity image generation", in Proc. SIGGRAPH 1988, pp. 75--84, (1988).
User's Manual for Environmental programs - Mech, Prusinkiewicz (1998) (Correct)
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COHEN,M.F.,CHEN,S.E.,WALLACE,J.R.,AND GREENBERG,J.R. A progressive refinement approach to fast radiosity image generation. Computer Graphics (SIGGRAPH '88 Conference Proceedings) 22 (1988), 75--84.
Computational Requirements for Accelerating Radiosity Algorithms - Vinod, al. (1993) (Correct)
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Michael F. Cohen, S.E.Chen, J.R.Wallace, D.P.Greenberg,(1988) "A progressive refinement approach to fast radiosity image generation" ACM Computer Graphics, (SIGGRAPH 88), vol 22,no.4,pp.75-84.
Technical Report, TU Vienna TR-186-2-01-17 (2001).. - Walkthroughs Gyrgy Antal (Correct)
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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), pages 75--84, 1988.
Image-Based Rendering of Diffuse, Specular and Glossy.. - Boivin, Gagalowicz (2001) (1 citation) (Correct)
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Michael F. Cohen, Shenchang Eric Chen, John R. Wallace, and Donald P. Greenberg. A progressive refinement approach to fast radiosity image generation. In John Dill, editor, Computer Graphics (Proceedings of SIGGRAPH 88), volume 22, pages 75--84, August 1988.
Hemicube Shooting for Non-Diffuse Global Illumination - Gyorgy Antal Laszlo (Correct)
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Using Graphics Hardware to Accelerate - Progressive Re Nement (Correct)
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Michael F. Cohen, Shenchang Eric Chen, John R. Wallace and Donald P. Greenberg. A Progressive Refinement Approach to Fast Radiosity Image Generation. Computer Graphics, Volume 22, Number 4 (Proceedings of SIGGRAPH 1988).
State of the Art in Monte Carlo Ray Tracing for Realistic Image.. - Jensen (2001) (Correct)
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Michael F. Cohen, Shenchang Eric Chen, John R. Wallace, and Donald P. Greenberg. A progressive refinement approach to fast radiosity image generation. In John Dill, editor, Computer Graphics (SIGGRAPH '88 Proceedings), volume 22, pages 75--84, August 1988.
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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), pages 75--84, 1988.
GPU Algorithms for Radiosity and Subsurface Scattering - Carr, Hall, Hart (2003) (2 citations) (Correct)
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M. F. Cohen, S. E. Chen, J. R. Wallace, and D. P. Greenberg. A progressive refinement approach to fast radiosity image generation. Computer Graphics, 22(4):75--84, 1988. (Proc. SIGGRAPH 88).
The use of global random directions to compute radiosity. Global .. - Casasayas (1996) (6 citations) (Correct)
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Michael Cohen, Shenchang Eric Chen, John R. Wallace, and Donald P. Greenberg. A progressive refinement approach to fast radiosity image generation. In Computer Graphics (ACM SIGGRAPH '88 Proceedings), pages 75--84, August 1988. Published as Computer Graphics (ACM SIGGRAPH '88 Proceedings), volume 22, number 4.
A Monte Carlo Approach for Animated Radiosity Environments - Besuievsky (2000) (Correct)
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Michael Cohen, Shenchang Eric Chen, John R. Wallace, and Donald P. Greenberg. A Progressive Refinement Approach to Fast Radiosity Image Generation. In Computer Graphics (ACM SIGGRAPH '88 Proceedings) , volume 22, pages 75--84, August 1988.
Linear Operators and Transfer Equations in Global Illumination - Arvo (Correct)
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Michael F. Cohen, Shenchang Eric Chen, John R. Wallace, and Donald P. Greenberg. A progressive refinement approach to fast radiosity image generation. Computer Graphics, 22(4):75--84, August 1988.
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