Authors: Philippe Weinzaepfel, Jerome Revaud, Zaid Harchaoui, Cordelia Schmid
Abstract:
Optical flow
computation is a key component in many computer vision systems designed
for tasks such as action detection or activity recognition. However,
despite several major advances over the last decade, handling large displacement in optical flow remains an open problem. Inspired by the large displacement optical flow of Brox and Malik, our approach, termed Deep Flow, blends a matching algorithm with a variational approach for optical flow. We propose a descriptor matching algorithm, tailored to the optical flow problem, that allows to boost performance on fast motions. The matching
algorithm builds upon a multi-stage architecture with 6 layers,
interleaving convolutions and max-pooling, a construction akin to deep
convolutional nets. Using dense sampling, it allows to efficiently
retrieve quasi-dense correspondences, and enjoys a built-in smoothing
effect on descriptors matches, a valuable asset for integration into an energy minimization framework for optical flow estimation. Deep Flow efficiently handles large displacements occurring in realistic videos, and shows competitive performance on optical flow benchmarks. Furthermore, it sets a new state-of-the-art on the MPI-Sintel dataset.
Computer Vision (ICCV), 2013 IEEE International Conference on
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