We address the problem of reconstruction and registration of a deforming 3D surface observed by some 3D sensor giving a cloud of 3D points at each time instant. This problem is difficult since the basic data term does not provide enough constraints. We bring two main contributions. First, we examine a set of data and penalty terms that make the problem well-posed. The most important terms we introduce are the nonextensibility penalty and the attraction to boundary shape. Second, we show how the error function combining all these terms can be efficiently minimized with the Levenberg-Marquardt algorithm and sparse matrices. We report convincing results for challenging datasets coming from different kinds of 3D sensors. The algorithm is robust...
Recently, progress has been made in restoring the accurate 3D shapes of objects in the real world us...
A large number of current mobile robots use 3D sensors as part of their sensor setup. Common 3D sens...
3D laser scanners composed of a rotating 2D laser range scanner exhibit different point densities wi...
Imagine an object such as a paper sheet being waved in front of some sensor. Reconstructing the time...
Abstract — In this paper we present a method for fast surface reconstruction from large noisy datase...
We present an unsupervised algorithm for registering 3D surface scans of an object undergoing signic...
Three dimensional data capture is an essential tool in mechanical engineering and graphics arts, and...
Figure 1: Several frames from a motion animation generated by interpolating two scans of a puppet (f...
This paper describes a method for registration and tracking of deformable objects from points clouds...
We present an approach to robustly track the geometry of an object that deforms over time from a set...
Non-rigid registration computes an alignment between a source surface with a target surface in a non...
We describe a new method to register surface data measured by optical 3D sensors from various views ...
International audienceThis paper presents a novel intrinsic 3D surface distance and its use in a com...
Non-rigid surface registration consists in estimating the deformation of a known flat surface, usual...
We present an approach to robustly track the geometry of an object that deforms over time from a set...
Recently, progress has been made in restoring the accurate 3D shapes of objects in the real world us...
A large number of current mobile robots use 3D sensors as part of their sensor setup. Common 3D sens...
3D laser scanners composed of a rotating 2D laser range scanner exhibit different point densities wi...
Imagine an object such as a paper sheet being waved in front of some sensor. Reconstructing the time...
Abstract — In this paper we present a method for fast surface reconstruction from large noisy datase...
We present an unsupervised algorithm for registering 3D surface scans of an object undergoing signic...
Three dimensional data capture is an essential tool in mechanical engineering and graphics arts, and...
Figure 1: Several frames from a motion animation generated by interpolating two scans of a puppet (f...
This paper describes a method for registration and tracking of deformable objects from points clouds...
We present an approach to robustly track the geometry of an object that deforms over time from a set...
Non-rigid registration computes an alignment between a source surface with a target surface in a non...
We describe a new method to register surface data measured by optical 3D sensors from various views ...
International audienceThis paper presents a novel intrinsic 3D surface distance and its use in a com...
Non-rigid surface registration consists in estimating the deformation of a known flat surface, usual...
We present an approach to robustly track the geometry of an object that deforms over time from a set...
Recently, progress has been made in restoring the accurate 3D shapes of objects in the real world us...
A large number of current mobile robots use 3D sensors as part of their sensor setup. Common 3D sens...
3D laser scanners composed of a rotating 2D laser range scanner exhibit different point densities wi...