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SI3D
1999
ACM
1999
ACM
Increased photorealism for interactive architectural walkthroughs
This paper presents a new method for interactive rendering of globally illuminated static scenes. Global illumination is decomposed into view-independent (diffuse) and view-dependent (non-diffuse) components. The two are recombined during rendering using a hybrid geometry- and image-based approach along with multi-pass blending techniques. This approach allows the preprocessing of both components and the fast rendering of globally illuminated scenes. The view-independent component uses a traditional precomputed geometry-based radiosity solution that is rendered using standard graphics hardware. The view-dependent component is decomposed into “what is reflected” (radiance with depth) and “how it is reflected” (BRDF), and precomputed and rendered using image-based approaches. Radiance is stored as images with depth, and rendered using perspective reprojection; the BRDF is decomposed into an integration of incoming radiance and a directional modulation. The radiance integration t...
Real-time TrafficComputer Graphics | Directional Modulation | Precomputed Geometry-based Radiosity | Radiance | SI3D 1999 |
| Added | 03 Aug 2010 |
| Updated | 03 Aug 2010 |
| Type | Conference |
| Year | 1999 |
| Where | SI3D |
| Authors | Rui Bastos, Kenneth E. Hoff III, William C. Wynn, Anselmo Lastra |
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