论文信息 - Orthogonal Functional Expansion Method of Optical Flow for Large Displacement

Orthogonal Functional Expansion Method of Optical Flow for Large Displacement

One of the representative methods of optical flow is a gradient method which estimates the movement of an object based on the differential of image brightness. However, the method is ineffective for large displacement of the object and many improved methods have been proposed to copy with such limitations. One of these improved techniques is the multigrid processing, which is used in many optical flow algorithms. As an alternative novel technique we have been proposing an orthogonal functional expansion method, where whole displacements are expanded from low frequency terms. This method is expected to be applicable to flow estimation with large displacement and deformation including expansion and contraction, which are difficult to cope with by conventional optical flow methods. In this paper, we apply our method to several real images in which the objects undergo large displacement and/or deformation including expansion.

[1] Jitendra Malik,et al. Large displacement optical flow , 2009, CVPR.

[2] C. Bregler,et al. Large displacement optical flow , 2009, 2009 IEEE Conference on Computer Vision and Pattern Recognition.

[3] Patrick Pérez,et al. Dense estimation and object-based segmentation of the optical flow with robust techniques , 1998, IEEE Trans. Image Process..

[4] Mohammad Ghanbari,et al. General approach to block-matching motion estimation , 1993 .

[5] Shinichi Tamura,et al. Estimation of motion from sequential images using integral constraints , 1995, Pattern Recognit..

[6] Ioannis Pitas,et al. Optical flow estimation and moving object segmentation based on median radial basis function network , 1998, IEEE Trans. Image Process..

[7] John L. Barron,et al. Image Reconstruction Error for Optical Flow , 1995, Research in Computer and Robot Vision.

[8] Thomas Brox,et al. High Accuracy Optical Flow Estimation Based on a Theory for Warping , 2004, ECCV.

[9] Luc Van Gool,et al. A Probabilistic Approach to Large Displacement Optical Flow and Occlusion Detection , 2004, ECCV Workshop SMVP.

[10] Hiroaki Naito,et al. Computation of motion using generalized moment transformations , 1993 .

[11] Joachim Weickert,et al. Reliable Estimation of Dense Optical Flow Fields with Large Displacements , 2000, International Journal of Computer Vision.