Volume Rendering using the Fourier Projection-Slice Theorem

Marc Levoy, Proc. Graphics Interface '92, Vancouver, British Columbia, May, 1992, Canadian Information Processing Society, pp. 61-69.

Abstract:

The Fourier projection-slice theorem states that the inverse transform of a slice extracted from the frequency domain representation of a volume yields a projection of the volume in a direction perpendicular to the slice. This theorem allows the generation of attenuation-only renderings of volume data in O(n^2 log N) time for a volume of size n^3. In this paper, we show how more realistic renderings can be generated using a class of shading models whose terms are Fourier projections. Models are derived for rendering depth cueing by linear attenuation of variable energy emitters and for rendering directional shading by Lambertian reflection with hemispherical illumination. While the resulting images do not exhibit the occlusion that is characteristic of conventional volume rendering, they provide sufficient depth and shape cues to give a strong illusion that occlusion exists.

Additional information available:

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Lossless TIFF of figures 7 through 13 (142K bytes).
These images are similar but not identical to those in the published paper.
Upper-left: conventional volume rendering (similar to figure 7).
Upper-right: attenuation-only (i.e. X-ray) projection (similar to figure 8).
Lower-left: depth-cued X-ray (similar to figure 10).
Lower-middle: directionally shaded X-ray (similar to figure 11).
Lower-right: depth-cued and directionally shaded X-ray (similar to figure 13).
All except upper-left were generated using the Fourier projection-slice theorem.
MPEG movie (99K bytes) of an occluding conventional volume rendering (left) and a non-occluding frequency domain volume rendering (right). The frequency domain rendering includes linear depth cueing and directional diffuse reflection. The dataset is a 96^3 voxel CT scan of a portion of a human skull mounted in a lucite head cast.

Figures 1 through 6 were handdrawn. No online version currently exists.