Feb 8, 2021 · In this paper, we present a novel shape unfolding algorithm, which deforms any given 3D shape into a canonical pose that is invariant to non-rigid ...

Feb 8, 2021 · In this paper, we present a novel shape unfolding algorithm, which deforms any given 3D shape into a canonical pose that is invariant to non- ...

We present a shape deformation algorithm that unfolds any given 3D shape into a canonical pose that is invariant to non-rigid transformations.

Abstract: We present a shape deformation algorithm that unfolds any given 3D shape into a canonical pose that is invariant to nonrigid transformations.

We present a shape deformation algorithm that unfolds any given 3D shape into a canonical pose that is invariant to nonrigid transformations.

In this paper, we present a novel shape unfolding algorithm, which deforms any given 3D shape into a canonical pose that is invariant to non-rigid ...

We present a shape deformation algorithm that unfolds any given 3D shape into a canonical pose that is invariant to nonrigid transformations.

We present a shape deformation algorithm that unfolds any given 3D shape into a canonical pose that is invariant to nonrigid transformations. Unlike.

Jun 13, 2016 · Fast-forward video our paper: Y. Sahillioglu, L. Kavan, Detail-Preserving Mesh Unfolding for Non-rigid Shape Retrieval, Transactions on ...

The basic idea is to maximize the total variance of the vertex set for a given 3D mesh, while preserving the details by minimizing locally linear reconstruction.