IEEE Access (Jan 2020)

A Perceptual-Based Noise-Agnostic 3D Skeleton Motion Data Refinement Network

  • Shu-Jie Li,
  • Hai-Sheng Zhu,
  • Li-Ping Zheng,
  • Lin Li

DOI
https://doi.org/10.1109/ACCESS.2020.2980316
Journal volume & issue
Vol. 8
pp. 52927 – 52940

Abstract

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In this paper, we demonstrate a perceptual-based 3D skeleton motion data refinement method based on a bidirectional recurrent autoencoder, called BRA-P. Three main technical contributions are made by the proposed network. First, the proposed BRA-P can address noisy data with different noise types and amplitudes using one network, and this attribute makes the approach more suitable for raw motion data with heterogeneous mixed noise. Second, due to the usage of perceptual loss, which measures the difference in high-level features extracted by a pretrained perceptual autoencoder, BRA-P improves the perceptual similarity between refined motion data and clean motion data, especially for the case where the noisy data and target clean data have different topologies. Third, BRA-P further improves the bone-length consistency and smoothness of the refined motion using the perceptual autoencoder as a postprocessing network. Ablation experiments verify the effect of the three technical contributions of our approach. The results of the experiments on synthetic noise data and raw motion data captured by Kinect demonstrate that our method outperforms several state-of-the-art methods in the cleaning of mixed-noise data by one network.

Keywords