Symmetry (May 2020)

BlockNet: A Deep Neural Network for Block-Based Motion Estimation Using Representative Matching

  • Junggi Lee,
  • Kyeongbo Kong,
  • Gyujin Bae,
  • Woo-Jin Song

DOI
https://doi.org/10.3390/sym12050840
Journal volume & issue
Vol. 12, no. 5
p. 840

Abstract

Read online

Owing to the limitations of practical realizations, block-based motion is widely used as an alternative for pixel-based motion in video applications such as global motion estimation and frame rate up-conversion. We hereby present BlockNet, a compact but effective deep neural architecture for block-based motion estimation. First, BlockNet extracts rich features for a pair of input images. Then, it estimates coarse-to-fine block motion using a pyramidal structure. In each level, block-based motion is estimated using the proposed representative matching with a simple average operator. The experimental results show that BlockNet achieved a similar average end-point error with and without representative matching, whereas the proposed matching incurred 18% lower computational cost than full matching.

Keywords