Title :
Graph Rigidity for Near-Coplanar Structure from Motion
Author :
Valmadre, Jack ; Upcroft, Ben ; Sridharan, Sridha ; Lucey, Simon
Author_Institution :
CSIRO, ICT Centre, Brisbane, QLD, Australia
Abstract :
Recent algorithms for monocular motion capture (MoCap) estimate weak-perspective camera matrices between images using a small subset of approximately-rigid points on the human body (i.e. the torso and hip). A problem with this approach, however, is that these points are often close to coplanar, causing canonical linear factorisation algorithms for rigid structure from motion (SFM) to become extremely sensitive to noise. In this paper, we propose an alternative solution to weak-perspective SFM based on a convex relaxation of graph rigidity. We demonstrate the success of our algorithm on both synthetic and real world data, allowing for much improved solutions to marker less MoCap problems on human bodies. Finally, we propose an approach to solve the two-fold ambiguity over bone direction using a k-nearest neighbour kernel density estimator.
Keywords :
approximation theory; estimation theory; graph theory; image motion analysis; pose estimation; relaxation theory; approximately-rigid points; bone direction; canonical linear factorisation algorithm; convex relaxation; graph rigidity; k-nearest neighbour kernel density estimator; monocular motion capture; near-coplanar structure; pose; structure from motion; two-fold ambiguity; weak-perspective camera matrix estimation; Bones; Cameras; Humans; Image edge detection; Noise; Three dimensional displays; Transmission line matrix methods; coplanar; graph rigidity; human; non-rigid; structure from motion; torso;
Conference_Titel :
Digital Image Computing Techniques and Applications (DICTA), 2011 International Conference on
Conference_Location :
Noosa, QLD
Print_ISBN :
978-1-4577-2006-2
DOI :
10.1109/DICTA.2011.87
