Proceedings ArticleDOI
New shape-based interpolation technique for three-dimensional images
William E. Higgins,C. Morice,E.L. Ritman +2 more
- Vol. 4, pp 1841-1844
TLDR
Results show that algorithm 3 generates better interpolated objects than the segmented volumes arising from standard grayscale-based interpolation techniques in cases where the objects to interpolate are thin tube-like structures, such as the coronary arteries.Abstract:
The problem of interpolating a high-resolution binary-valued 3-D image given a lower-resolution grayscale 3-D image and a corresponding segmented 3-D image is addressed. Three algorithms for this problem are described. Algorithms 1 and 2 perform shape- and located-based binary interpolation. Algorithm 3, which subsumes algorithms 1 and 2, incorporates grayscale information as well as object shape and slice-to-slice object spatial relationships. Results show that algorithm 3 generates better interpolated objects than the segmented volumes arising from standard grayscale-based interpolation techniques. Algorithm 2, which subsumes algorithm 1, uses only the known presegmented volume to interpolate a new binary-valued volume. the methods show particular merit in cases where the objects to interpolate are thin tube-like structures, such as the coronary arteries. >read more
Citations
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Journal ArticleDOI
Shape-based interpolation of tree-like structures in three-dimensional images
TL;DR: Two methods for shape-based interpolation that offer an improvement to linear interpolation are presented and tests with 3-D images of the coronary arterial tree demonstrate the efficacy of the methods.
Proceedings ArticleDOI
Shape-based interpolation of multidimensional grey-level images
TL;DR: A new approach for the interpolation of grey data of arbitrary dimension that generalizes the shape-based method from binary data to grey data and allows intermixing operations on structures and images.
Journal ArticleDOI
Morphology-based interpolation for 3D medical image reconstruction
TL;DR: A new method, based on mathematical morphology, is presented here to implement the interpolation by means of a combined operation of weighted dilation and erosion, which successfully resolves the interpolations problem when there is no overlapping area between the two objects.
Journal ArticleDOI
Imaging Transforms for Visualizing Surfaces and Volumes
TL;DR: An operator notation is introduced to describe the basic imaging transforms commonly used in 3D visualization and to identify a comprehensive set of basic transforms.
Proceedings ArticleDOI
Combining shape-based and gray-level interpolations
TL;DR: The method reported here is a combination of these two forms of interpolation, using the local gradient as a normalizing factor of the combination, and performs better than either of them applied individually.
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