Add to ORKGA method is proposed to compute partial shape similarity between two 3D models based on matching of all point-to-point pairs on the surfaces. The parameters in the shape matching are determined independently by two separate processes to avoid huge computational costs required in general shape matching methods. The rotation parameters are derived from matching of surface normals, and the translation and scaling parameters are obtained by using the structure relationship between tangent planes at the matched points. The experimental results show the feasibility of the method.EI02154-1592
AbstractDetermining the similarity of two shapes is a significant task in both machine and human vis...
Shape matching is an important ingredient in shape retrieval, recognition and classification, align...
Matching deformable 3D shapes under partiality transformations is a challenging problem that has rec...
Establishing correspondences between salient points on 3D shapes results in a function mapping simil...
We propose a new method for computing accurate point-to-point mappings between a pair of triangle me...
This paper introduces a method for partial matching of surfaces represented by triangular meshes. Ou...
We present a 3D correspondence method to match the geometric extremities of two shapes which are par...
International audienceThe 3D-shape matching problem plays a crucial role in many applications such a...
为了计算2个三维模型可能存在的部分对应表面的形状相似问题,提出一种基于2个三维模型表面之间所有的点与点配对的三维形状匹配方法.在2个不同的部分中独立确定匹配的旋转参数与平移和尺度缩放参数,从而避免了形...
We present a 3-D correspondence method to match the geometric extremities of two shapes which are pa...
We propose a novel method for computing a geometri-cally consistent and spatially dense matching bet...
Shape matching is a fundamental operation in digital geometry processing and computer graphics. Chal...
We propose a novel method for computing a geometri-cally consistent and spatially dense matching bet...
Abstact- Point/feature matching in 2D images has been well studied in the computer vision community....
The extended abstract describes a method for recognizing similar sub-parts of objects described by 3...
AbstractDetermining the similarity of two shapes is a significant task in both machine and human vis...
Shape matching is an important ingredient in shape retrieval, recognition and classification, align...
Matching deformable 3D shapes under partiality transformations is a challenging problem that has rec...
Establishing correspondences between salient points on 3D shapes results in a function mapping simil...
We propose a new method for computing accurate point-to-point mappings between a pair of triangle me...
This paper introduces a method for partial matching of surfaces represented by triangular meshes. Ou...
We present a 3D correspondence method to match the geometric extremities of two shapes which are par...
International audienceThe 3D-shape matching problem plays a crucial role in many applications such a...
为了计算2个三维模型可能存在的部分对应表面的形状相似问题,提出一种基于2个三维模型表面之间所有的点与点配对的三维形状匹配方法.在2个不同的部分中独立确定匹配的旋转参数与平移和尺度缩放参数,从而避免了形...
We present a 3-D correspondence method to match the geometric extremities of two shapes which are pa...
We propose a novel method for computing a geometri-cally consistent and spatially dense matching bet...
Shape matching is a fundamental operation in digital geometry processing and computer graphics. Chal...
We propose a novel method for computing a geometri-cally consistent and spatially dense matching bet...
Abstact- Point/feature matching in 2D images has been well studied in the computer vision community....
The extended abstract describes a method for recognizing similar sub-parts of objects described by 3...
AbstractDetermining the similarity of two shapes is a significant task in both machine and human vis...
Shape matching is an important ingredient in shape retrieval, recognition and classification, align...
Matching deformable 3D shapes under partiality transformations is a challenging problem that has rec...