Efficient dense 3D scene flow from sparse or dense stereo data
European Conference on Computer Vision (ECCV), Springer, LNCS, Vol.5302: 739-751, Oct. 2008
Abstract: This paper presents a technique for estimating the threedimensional velocity vector field that describes the motion of each visible scene point (scene flow). The technique presented uses two consecutive image pairs from a stereo sequence. The main contribution is to decouple the position and velocity estimation steps, and to estimate dense velocities using a variational approach. We enforce the scene flow to yield consistent displacement vectors in the left and right images. The decoupling strategy has two main advantages: Firstly, we are independent in choosing a disparity estimation technique, which can yield either sparse or dense correspondences, and secondly, we can achieve frame rates of 5 fps on standard consumer hardware. The approach provides dense velocity estimates with accurate results at distances up to 50 meters.
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BibTex reference
@InProceedings{Bro08a, author = "A. Wedel and C. Rabe and T. Vaudrey and T. Brox and U. Franke and D. Cremers", title = "Efficient dense 3D scene flow from sparse or dense stereo data", booktitle = "European Conference on Computer Vision (ECCV)", series = "Lecture Notes in Computer Science", volume = "5302", pages = "739-751", month = "Oct.", year = "2008", publisher = "Springer", url = "http://lmbweb.informatik.uni-freiburg.de/Publications/2008/Bro08a" }