Add to ORKGWe present a dense correspondence method for isometric shapes, which is accurate yet computationally efficient. We minimize the isometric distortion directly in the 3D Euclidean space, i.e., in the domain where isometry is originally defined, by using a coarse-to-fine sampling and combinatorial matching algorithm. Our method does not require any initialization and aims to find an accurate solution in the minimum-distortion sense for perfectly isometric shapes. We demonstrate the performance of our method on various isometric (or nearly isometric) pairs of shapes
We present a novel approach to the computation of dense correspondence maps between shapes in a non-...
Abstract. We propose a novel method for computing a geometrically consistent and spatially dense mat...
We present a novel approach to the computation of dense correspondence maps between shapes in a non-...
We address the scale problem inherent to isometric shape correspondence in a combinatorial matching ...
We address the scale problem inherent to isometric shape correspondence in a combinatorial matching ...
We present an automatic method that establishes 3D cor-respondence between isometric shapes. Our goa...
Abstract—We present a purely isometric method that establishes 3D correspondence between two (nearly...
Abstract—We present a purely isometric method that establishes 3D correspondence between two (nearly...
In this work, we introduce two methods to handle nearly isometric shape correspondence problem. The ...
In this work, we introduce two methods to handle nearly isometric shape correspondence problem. The ...
We present a 3D correspondence method to match the geometric extremities of two shapes which are par...
We present a 3-D correspondence method to match the geometric extremities of two shapes which are pa...
International audienceWe address the problem of matching two 3D shapes by representing them using th...
Figure 1: The proposed framework for isometric shape matching allows establishing dense corresponden...
We exploit the permutation creation ability of genetic optimization to find the permutation of one p...
We present a novel approach to the computation of dense correspondence maps between shapes in a non-...
Abstract. We propose a novel method for computing a geometrically consistent and spatially dense mat...
We present a novel approach to the computation of dense correspondence maps between shapes in a non-...
We address the scale problem inherent to isometric shape correspondence in a combinatorial matching ...
We address the scale problem inherent to isometric shape correspondence in a combinatorial matching ...
We present an automatic method that establishes 3D cor-respondence between isometric shapes. Our goa...
Abstract—We present a purely isometric method that establishes 3D correspondence between two (nearly...
Abstract—We present a purely isometric method that establishes 3D correspondence between two (nearly...
In this work, we introduce two methods to handle nearly isometric shape correspondence problem. The ...
In this work, we introduce two methods to handle nearly isometric shape correspondence problem. The ...
We present a 3D correspondence method to match the geometric extremities of two shapes which are par...
We present a 3-D correspondence method to match the geometric extremities of two shapes which are pa...
International audienceWe address the problem of matching two 3D shapes by representing them using th...
Figure 1: The proposed framework for isometric shape matching allows establishing dense corresponden...
We exploit the permutation creation ability of genetic optimization to find the permutation of one p...
We present a novel approach to the computation of dense correspondence maps between shapes in a non-...
Abstract. We propose a novel method for computing a geometrically consistent and spatially dense mat...
We present a novel approach to the computation of dense correspondence maps between shapes in a non-...