Volume thinning for automatic isosurface propagation

Itoh,; Yamaguchi, Yasushi; Koyamada,

doi:10.1109/visual.1996.568123

Cited by 26 publications

(10 citation statements)

References 11 publications

(22 reference statements)

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“…In addition, the marching cubes method proposed a simple and efficient local triangulation scheme that uses a lookup table. Subsequently, researchers created methods for accelerating the search phase for isosurface extraction [21][22][23][24][25] all of which have a complexity of O(n), where n is the number of voxels in the volume. We introduced the span space [26] as a means for mapping the search onto a two-dimensional space and then used it to create a near optimal isosurface extraction (NOISE) algorithm that has a time complexity of O( √ n + k), where k is the size of the isosurface.…”

Section: Isosurface Extractionmentioning

confidence: 99%

Biomedical Visualization

Johnson

Tricoche

2009

Advances in Biomedical Engineering

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Section: Isosurface Extractionmentioning

confidence: 99%

Biomedical Visualization

Johnson

Tricoche

2009

Advances in Biomedical Engineering

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“…Given an isovalue, one can then descend the hierarchy, pruning empty subtrees based on this minmax scheme. In recent years, many other methods for accelerating the search phase were proposed [3,4,6,7,15,20,19] all of which have a complexity of On, where n is the size of the dataset. In 1996, we introduced the span space [10] as a mean for mapping the search onto a two-dimension space.…”

Section: Related Workmentioning

confidence: 99%

View dependent isosurface extraction

Livnat¹,

Hansen²

Proceedings Visualization '98 (Cat. No.98CB36276)

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We propose a new approach to polygonal isosurface extraction that is based on extracting only the visible portion of the isosurface. The visibility tests are done in two phases. First, coarse visibility tests are performed in software to determine the visible cells. These tests are based on hierarchical tiles and shear-warp factorization. The second phase resolves the visible portions of the extracted triangles and is accomplished by the graphics hardware.While the latest isosurface extraction methods have effectively eliminated the search phase bottleneck, the cost of constructing and rendering the isosurface remains high. Many of today's large datasets contain very large and complex isosurfaces that can easily overwhelm even state-of-the-art graphics hardware. The proposed approach is output sensitive and is thus well suited for remote visualization applications where the extraction and rendering phases are done on a separate machines.

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“…Early work [23,11,27,8,28,14,26,15] on isosurface extraction focused on a complete isosurface computation and exhibits a worst case time complexity of O(n), where n is the size of the data. Cignoni et al [5] presented an optimal isosurface extraction method based on the span space introduced by Livnat et al [22].…”

Section: Previous Workmentioning

confidence: 99%

Interactive point-based isosurface extraction

Livnat

Tricoche

IEEE Visualization 2004

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We propose a novel point-based approach to view dependent isosurface extraction. We introduce a fast visibility query system for the view dependent traversal, which exhibits moderate memory requirements. This technique allows for an interactive interrogation of the full visible woman dataset (1GB) at four to fifteen frames per second on a desktop computer. The point-based approach is built on an extraction scheme that classifies different sections of the isosurface into four categories, depending on the size of the geometry when projected onto the screen. In particular, we use points to represent small and sub-pixel triangles, as well as larger sections of the isosurface whose projection has sub-pixel size. To assign consistent and robust normals to individual points representing such regions, we propose to compute them during post processing of the extracted isosurface and provide the corresponding hardware implementation.

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Volume thinning for automatic isosurface propagation

Cited by 26 publications

References 11 publications

Biomedical Visualization

Biomedical Visualization

View dependent isosurface extraction

Interactive point-based isosurface extraction

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