Takashi Totsuka scite author profile

The Fourier projection-slice theorem allows projections of volume data to be generated in O(n 2 log n) time for a volume of size n 3 . The method operates by extracting and inverse Fourier transforming 2D slices from a 3D frequency domain representation of the volume. Unfortunately, these projections do not exhibit the occlusion that is characteristic of conventional volume renderings. We present a new frequency domain volume rendering algorithm that replaces much of the missing depth and shape cues by performing shading calculations in the frequency domain during slice extraction. In particular, we demonstrate frequency domain methods for computing linear or nonlinear depth cueing and directional diffuse reflection. The resulting images can be generated an order of magnitude faster than volume renderings and may be more useful for many applications.

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Combining frequency and spatial domain information for fast interactive image noise removal

Hirani

Totsuka

1996

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Constraint-conscious smoothing framework for the recovery of 3D articulated motion from image sequences

Segawa¹,

Shioya

Hiraki

et al.

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Dual domain interactive image restoration: basic algorithm

Hirani

Totsuka

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Takashi Totsuka

Load Balancing and Data Locality in Adaptive Hierarchical N-Body Methods: Barnes-Hut, Fast Multipole, and Radiosity

Frequency domain volume rendering

Combining frequency and spatial domain information for fast interactive image noise removal

Constraint-conscious smoothing framework for the recovery of 3D articulated motion from image sequences

Dual domain interactive image restoration: basic algorithm

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