A new method for 3D rigid motion estimation from stereo is proposed in this paper. The appealing feature of this method is that it directly uses the disparity images obtained from stereo matching. We assume that the stereo rig has parallel cameras and show, in that case, the geometric and topological properties of the disparity images. Then we introduce a rigid transformation (called d-motion) that maps two disparity images of a rigidly moving object. We show how it is related to the Euclidean rigid motion and a motion estimation algorithm is derived. We show with experiments that our approach is simple and more accurate than standard approaches
This thesis addresses the challenging problem of obtaining 3D models for real environments from ster...
In this paper, the problem of joint disparity and motion estimation from stereo image sequences is f...
We describe a system that detects independently moving objects from a mobile platform in real time u...
We describe a new method for motion estimation and 3D reconstruction from stereo image sequences obt...
[[abstract]]Presents a modified disparity measurement to recover depth and a robust method to estima...
This thesis provides an overview of the research that was done along the three years of the Ph.D. st...
The extraction of reliable range data from images is investigated, considering, as a possible soluti...
Work performed as a step toward an intelligent automatic machine vision system for 3-D imaging is di...
Computationally efficient moving object detection and depth estimation from a stereo camera is an ex...
In this paper, an approach with combined stereo and motion analysis to establish correspondences in ...
For the purpose of exploiting the intra-view and inter-view dependencies of stereo video, a fast mot...
In this paper we present a novel structure from motion (SfM) approach able to infer 3D deformable mo...
We describe a method for computing a dense estimate of motion and disparity, given a stereo video se...
In motion estimation, the sub-pixel matching technique involves the search of sub-sample positions a...
3D scene flow estimation aims to jointly recover dense geometry and 3D motion from stereoscopic imag...
This thesis addresses the challenging problem of obtaining 3D models for real environments from ster...
In this paper, the problem of joint disparity and motion estimation from stereo image sequences is f...
We describe a system that detects independently moving objects from a mobile platform in real time u...
We describe a new method for motion estimation and 3D reconstruction from stereo image sequences obt...
[[abstract]]Presents a modified disparity measurement to recover depth and a robust method to estima...
This thesis provides an overview of the research that was done along the three years of the Ph.D. st...
The extraction of reliable range data from images is investigated, considering, as a possible soluti...
Work performed as a step toward an intelligent automatic machine vision system for 3-D imaging is di...
Computationally efficient moving object detection and depth estimation from a stereo camera is an ex...
In this paper, an approach with combined stereo and motion analysis to establish correspondences in ...
For the purpose of exploiting the intra-view and inter-view dependencies of stereo video, a fast mot...
In this paper we present a novel structure from motion (SfM) approach able to infer 3D deformable mo...
We describe a method for computing a dense estimate of motion and disparity, given a stereo video se...
In motion estimation, the sub-pixel matching technique involves the search of sub-sample positions a...
3D scene flow estimation aims to jointly recover dense geometry and 3D motion from stereoscopic imag...
This thesis addresses the challenging problem of obtaining 3D models for real environments from ster...
In this paper, the problem of joint disparity and motion estimation from stereo image sequences is f...
We describe a system that detects independently moving objects from a mobile platform in real time u...