3D Reconstruction of a Moving Point from a Series of 2D Projections
Conference Paper, Proceedings of (ECCV) European Conference on Computer Vision, pp. 158 - 171, September, 2010
Abstract
This paper presents a linear solution for reconstructing the 3D trajectory of a moving point from its correspondence in a collection of 2D perspective images, given the 3D spatial pose and time of capture of the cameras that produced each image. Triangulation-based solutions do not apply, as multiple views of the point may not exist at each instant in time. A geometric analysis of the problem is presented and a criterion, called reconstructibility, is defined to precisely characterize the cases when reconstruction is possible, and how accurate it can be. We apply the linear reconstruction algorithm to reconstruct the time evolving 3D structure of several real-world scenes, given a collection of non-coincidental 2D images.
BibTeX
@conference{Park-2010-10522,author = {Hyun Soo Park and Takaaki Shiratori and Iain Matthews and Yaser Ajmal Sheikh},
title = {3D Reconstruction of a Moving Point from a Series of 2D Projections},
booktitle = {Proceedings of (ECCV) European Conference on Computer Vision},
year = {2010},
month = {September},
pages = {158 - 171},
keywords = {Multiple view geometry, Non-rigid structure from motion, Trajectory basis, Reconstructibility},
}
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