We propose a robust approach for the registration of two sets of 3D points in the presence of a large amount of outliers. Our first contribution is to reformulate the registration problem using a Truncated Least Squares (TLS) cost that makes the estimation insensitive to a large fraction of spurious point-to-point correspondences. The second contribution is a general framework to decouple rotation, translation, and scale estimation, which allows solving in cascade for the three transformations. Since each subproblem (scale, rotation, and translation estimation) is still non-convex and combinatorial in nature, out third contribution is to show that (i) TLS scale and (component-wise) translation estimation can be solved exactly and i...
We propose a real-time, robust to outliers and accurate solution to the Perspective-n-Point (PnP) pr...
International audienceThis paper addresses the issue of matching rigid and articulated shapes throug...
We propose a real-time, robust to outliers and accurate solution to the Perspective-n-Point (PnP) pr...
IEEE We propose the first fast and certifiable algorithm for the registration of two sets of three-d...
The aim of this thesis is to provide a robust and globally optimal method for rigid point set regist...
This paper introduces a new method of registering point sets. The registration error is directly min...
This paper introduces two new methods of registering 2D point sets over rigid transformations when t...
In this paper the problem of pairwise model-to-scene point set registration is considered. Three con...
We present a new technique for the simultaneous registration of multiple corresponding point sets wi...
International audienceThis paper addresses the problem of registering a known structured 3D scene, t...
What is the computational complexity of geometric model estimation in the presence of noise and outl...
This paper casts the global registration of multiple 3D point-sets into a low-rank and sparse decomp...
© 2019 IEEE. Spatial perception is the backbone of many robotics applications, and spans a broad ran...
We propose a real-time, robust to outliers and accurate solution to the Perspective-n-Point (PnP) pr...
International audienceThis paper addresses the issue of matching rigid and articulated shapes throug...
We propose a real-time, robust to outliers and accurate solution to the Perspective-n-Point (PnP) pr...
IEEE We propose the first fast and certifiable algorithm for the registration of two sets of three-d...
The aim of this thesis is to provide a robust and globally optimal method for rigid point set regist...
This paper introduces a new method of registering point sets. The registration error is directly min...
This paper introduces two new methods of registering 2D point sets over rigid transformations when t...
In this paper the problem of pairwise model-to-scene point set registration is considered. Three con...
We present a new technique for the simultaneous registration of multiple corresponding point sets wi...
International audienceThis paper addresses the problem of registering a known structured 3D scene, t...
What is the computational complexity of geometric model estimation in the presence of noise and outl...
This paper casts the global registration of multiple 3D point-sets into a low-rank and sparse decomp...
© 2019 IEEE. Spatial perception is the backbone of many robotics applications, and spans a broad ran...
We propose a real-time, robust to outliers and accurate solution to the Perspective-n-Point (PnP) pr...
International audienceThis paper addresses the issue of matching rigid and articulated shapes throug...
We propose a real-time, robust to outliers and accurate solution to the Perspective-n-Point (PnP) pr...