TY - GEN
T1 - Variational optical flow from alternate exposure images
AU - Sellent, Anita
AU - Eisemann, Martin
AU - Goldlücke, Bastian
AU - Pock, Thomas
AU - Cremers, Daniel
AU - Magnor, Marcus
PY - 2009
Y1 - 2009
N2 - Traditional optic flow algorithms rely on consecutive short-exposure images. In contrast, longexposed images contain integrated motion information directly in form of motion blur. In this paper, we show how the additional information provided by a long exposure image can be used to improve robustness and accuracy of motion field estimation. Recently, an image formation model was introduced [23] that relates a long-exposure image to preceding and succeeding short-exposure images in terms of dense 2D motion and occlusion. We formulate the original two-step problem for motion and occlusion timings as a joint minimization problem and derive a global TV-L1 energy functional that can be minimized efficiently and accurately. The approach is able to calculate highly accurate motion fields, assigning motion to occluded and disoccluded image regions in one joint optimization procedure.
AB - Traditional optic flow algorithms rely on consecutive short-exposure images. In contrast, longexposed images contain integrated motion information directly in form of motion blur. In this paper, we show how the additional information provided by a long exposure image can be used to improve robustness and accuracy of motion field estimation. Recently, an image formation model was introduced [23] that relates a long-exposure image to preceding and succeeding short-exposure images in terms of dense 2D motion and occlusion. We formulate the original two-step problem for motion and occlusion timings as a joint minimization problem and derive a global TV-L1 energy functional that can be minimized efficiently and accurately. The approach is able to calculate highly accurate motion fields, assigning motion to occluded and disoccluded image regions in one joint optimization procedure.
UR - http://www.scopus.com/inward/record.url?scp=79959505735&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:79959505735
SN - 9783980487481
T3 - VMV 2009 - Proceedings of the Vision, Modeling, and Visualization Workshop 2009
SP - 135
EP - 143
BT - VMV 2009 - Proceedings of the Vision, Modeling, and Visualization Workshop 2009
T2 - 14th International Conference on Vision, Modeling, and Visualization, VMV 2009
Y2 - 16 November 2009 through 18 November 2009
ER -