The 2000's

We introduce the graph camera, a non-pinhole with rays that circumvent occluders to create a single layer image that shows simultaneously several regions of interest in a 3-D scene. The graph camera image exhibits good continuity and little redundancy. Continue reading

In this application paper we describe the efforts of a multi-disciplinary team towards producing a visualization of the September 11 Attack on the North Tower of New York's World Trade Center. This was achieved by first designing and computing a finite element analysis (FEA) simulation of the impact between the aircraft and the top 20 stories of the building, and then by visualizing the FEA results with a state-of-the-art commercial animation system. Continue reading

We introduce the epipolar occlusion camera, which is a non-pinhole which gathers samples of a 3D scene visible from a segment of viewpoints. Continue reading

We demonstrate an interactive application where the user draws simple building blocks and, using our system, can automatically complete the building 'in the style'' of other buildings using view-dependent texture mapping or nonphotorealistic rendering techniques. Continue reading

We describe a spatial image hierarchy combined with an image compression scheme that meets the requirements of interactive IBR walkthroughs. By using image warping and exploiting image coherence over the image capture plane, we achieve compression performance similar to traditional motion-compensated schema, e.g., MPEG, yet allow image access along arbitrary paths. Continue reading

Volumetric three-dimensional (3-D) displays allow the user to explore a 3-D scene free of joysticks, keyboards, goggles, or trackers. For non-trivial scenes, computing and transferring a 3-D image to the display takes hundreds of seconds, which is a serious bottleneck for many applications. We propose to represent the 3-D scene with an occlusion camera reference image (OCRI) for more efficient rendering. Continue reading

We test perception of 3-D spatial relations in 3-D images rendered by a 3-D display and compare it to that of a high-resolution flat panel display. We test the subject's ability to determine whether or not an object is distorted under several viewing conditions (monocular/binocular, with/without motion parallax, and near/far). Continue reading

We describe forward rasterization, a class of rendering algorithms designed for small polygonal primitives. The primitive is efficiently rasterized by interpolation between its vertices. The interpolation factors are chosen to guarantee that each pixel covered by the primitive receives at least one sample which avoids holes. Continue reading

We test perception of 3D spatial relations in 3D images rendered by a 3D display and compare it to that of a high-resolution flat panel display.

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