In this paper, we propose a method of reconstructing triangular surfaces from given medical slices. The method tries to solve the problem by using contours interactively extracted from the slices. After that the problem changes to connecting the contours into a triangular mesh. For the purpose, the algorithm has to deal with two difficult problems: contour correspondence and branching. The correspondence problem is solved here by exploiting information both of the extracted contours and the original slices. Then, we triangulate the contours by a piecewise-linear interpolation scheme with ability to handle degenerate portions in the mesh. The most significant advantage in integrating the grey-level slice information is that we can match the ...
We present a new algorithm, called marching cubes, that creates triangle models of constant density ...
With the enhancement of computer and imaging technology, increasing amounts of biological data are b...
In many applications, such as computer vision, medical imaging, scene forming, and motion animation,...
In this paper we present a new technique for piecewise-linear surface reconstruction from a series o...
Surface reconstruction of anatomical structures is an integral part of medical modeling. Contour inf...
Although surface-based analysis has become a standard tool in neuroimaging, existing surface reconst...
[[abstract]]For common biomedical imaging facilities, such as CT, MRI, and confocal microscopy, the ...
Thanks to advances in medical imaging technologies and numerical methods, Patient-Specific Modelling...
Surface reconstruction from surface contours has become increasingly important in the medical field....
This paper presents a new approach to the construction of a surface from a stack of contour slices. ...
The 3D shape reconstruction of an object from its 2D cross-sections is important for reproducing it ...
In this paper we present an efficient method for interpolating a piecewise-linear surface between tw...
International audienceConventional triangulation algorithms from planar contours suffer from some li...
We investigate the problem of reconstruction a surface given its contours on parallel slices. We pr...
Cross contour surfaces are composed of sets of planar contours. They are the natural output of ...
We present a new algorithm, called marching cubes, that creates triangle models of constant density ...
With the enhancement of computer and imaging technology, increasing amounts of biological data are b...
In many applications, such as computer vision, medical imaging, scene forming, and motion animation,...
In this paper we present a new technique for piecewise-linear surface reconstruction from a series o...
Surface reconstruction of anatomical structures is an integral part of medical modeling. Contour inf...
Although surface-based analysis has become a standard tool in neuroimaging, existing surface reconst...
[[abstract]]For common biomedical imaging facilities, such as CT, MRI, and confocal microscopy, the ...
Thanks to advances in medical imaging technologies and numerical methods, Patient-Specific Modelling...
Surface reconstruction from surface contours has become increasingly important in the medical field....
This paper presents a new approach to the construction of a surface from a stack of contour slices. ...
The 3D shape reconstruction of an object from its 2D cross-sections is important for reproducing it ...
In this paper we present an efficient method for interpolating a piecewise-linear surface between tw...
International audienceConventional triangulation algorithms from planar contours suffer from some li...
We investigate the problem of reconstruction a surface given its contours on parallel slices. We pr...
Cross contour surfaces are composed of sets of planar contours. They are the natural output of ...
We present a new algorithm, called marching cubes, that creates triangle models of constant density ...
With the enhancement of computer and imaging technology, increasing amounts of biological data are b...
In many applications, such as computer vision, medical imaging, scene forming, and motion animation,...