AbstractRetrieval of 3D shapes is a challenging problem, especially for non-rigid shapes. One approach giving favourable results uses multidimensional scaling (MDS) to compute a canonical form for each mesh, after which rigid shape matching can be applied. However, a drawback of this method is that it requires geodesic distances to be computed between all pairs of mesh vertices. Due to the super-quadratic computational complexity, canonical forms can only be computed for low-resolution meshes. We suggest a linear time complexity method for computing a canonical form, using Euclidean distances between pairs of a small subset of vertices. This approach has comparable retrieval accuracy but lower time complexity than using global geodesic dist...
International audienceNon-rigid 3D shape retrieval has become an active and important research topic...
With the increasing popularity of 3D applications such as computer games, a lot of 3D geometry model...
This paper examines the problem of database organization and retrieval based on computing metric pai...
Retrieval of 3D shapes is a challenging problem, especially for non-rigid shapes. One approach givin...
AbstractRetrieval of 3D shapes is a challenging problem, especially for non-rigid shapes. One approa...
Canonical forms a b s t r a c t Retrieval of 3D shapes is a challenging problem, especially for non-...
The retrieval of non-rigid 3D shapes is an important task. A common technique is to simplify this pr...
Canonical forms attempt to factor out a non-rigid shape’s pose, giving a pose-neutral shape. This op...
Measuring the dissimilarity between non-rigid objects is a challenging problem in 3D shape retrieval...
We present a new benchmark for testing algorithms that create canonical forms for use in non-rigid 3...
∗Track organisers We present a new benchmark for testing algorithms that create canonical forms for ...
In this paper, we propose a highly efficient metric learning approach to non-rigid 3D shape analysis...
We present a scalable and unsupervised approach for content-based retrieval on 3D model collections....
Content-based 3D object retrieval has become an active topic in many research communities. In this p...
International audienceNon-rigid 3D shape retrieval has become an active and important research topic...
With the increasing popularity of 3D applications such as computer games, a lot of 3D geometry model...
This paper examines the problem of database organization and retrieval based on computing metric pai...
Retrieval of 3D shapes is a challenging problem, especially for non-rigid shapes. One approach givin...
AbstractRetrieval of 3D shapes is a challenging problem, especially for non-rigid shapes. One approa...
Canonical forms a b s t r a c t Retrieval of 3D shapes is a challenging problem, especially for non-...
The retrieval of non-rigid 3D shapes is an important task. A common technique is to simplify this pr...
Canonical forms attempt to factor out a non-rigid shape’s pose, giving a pose-neutral shape. This op...
Measuring the dissimilarity between non-rigid objects is a challenging problem in 3D shape retrieval...
We present a new benchmark for testing algorithms that create canonical forms for use in non-rigid 3...
∗Track organisers We present a new benchmark for testing algorithms that create canonical forms for ...
In this paper, we propose a highly efficient metric learning approach to non-rigid 3D shape analysis...
We present a scalable and unsupervised approach for content-based retrieval on 3D model collections....
Content-based 3D object retrieval has become an active topic in many research communities. In this p...
International audienceNon-rigid 3D shape retrieval has become an active and important research topic...
With the increasing popularity of 3D applications such as computer games, a lot of 3D geometry model...
This paper examines the problem of database organization and retrieval based on computing metric pai...