Title :
Local grouping for optical flow
Author_Institution :
Toyota Technol. Inst. at Chicago, Chicago, IL
Abstract :
Optical flow estimation requires spatial integration, which essentially poses a grouping question: what points belong to the same motion and what do not. Classical local approaches to optical flow, such as Lucas-Kanade, use isotropic neighborhoods and have considerable difficulty near motion boundaries. In this work we utilize image-based grouping to facilitate spatial- and scale-adaptive integration. We define soft spatial support using pairwise affinities computed through intervening contour. We sample images at edges and corners, and iteratively estimate affine motion at sample points. Figure-ground organization further improves grouping and flow estimation near boundaries. We show that affinity-based spatial integration enables reliable flow estimation and avoids erroneous motion propagation from and/or across object boundaries. We demonstrate our approach on the Middlebury flow dataset.
Keywords :
edge detection; image sampling; image sequences; integration; iterative methods; motion estimation; Lucas-Kanade approach; Middlebury flow dataset; affinity-based spatial integration; corner sampling; edge sampling; image sampling; image-based grouping; intervening contour; isotropic neighborhoods; iterative affine motion estimation; local grouping; optical flow estimation; scale-adaptive integration; spatial-adaptive integration; Apertures; Brightness; Image motion analysis; Image segmentation; Integrated optics; Motion analysis; Motion estimation; Optical computing; Robustness; Smoothing methods;
Conference_Titel :
Computer Vision and Pattern Recognition, 2008. CVPR 2008. IEEE Conference on
Conference_Location :
Anchorage, AK
Print_ISBN :
978-1-4244-2242-5
Electronic_ISBN :
1063-6919
DOI :
10.1109/CVPR.2008.4587536
