PrincetonComputer SciencePIXL GroupPublications → [Stroud et al. 2019] Local Access
D3D: Distilled 3D Networks for Video Action Recognition

arXiv preprint, February 2019

Jonathan C. Stroud, David A. Ross, Chen Sun,
Jia Deng, Rahul Sukthankar
Abstract

State-of-the-art methods for video action recognition commonly use an ensemble of two networks: the spatial stream, which takes RGB frames as input, and the temporal stream, which takes optical flow as input. In recent work, both of these streams consist of 3D Convolutional Neural Networks, which apply spatiotemporal filters to the video clip before performing classification. Conceptually, the temporal filters should allow the spatial stream to learn motion representations, making the temporal stream redundant. However, we still see significant benefits in action recognition performance by including an entirely separate temporal stream, indicating that the spatial stream is "missing" some of the signal captured by the temporal stream. In this work, we first investigate whether motion representations are indeed missing in the spatial stream of 3D CNNs. Second, we demonstrate that these motion representations can be improved by distillation, by tuning the spatial stream to predict the outputs of the temporal stream, effectively combining both models into a single stream. Finally, we show that our Distilled 3D Network (D3D) achieves performance on par with two-stream approaches, using only a single model and with no need to compute optical flow.
Citation

Jonathan C. Stroud, David A. Ross, Chen Sun, Jia Deng, and Rahul Sukthankar.
"D3D: Distilled 3D Networks for Video Action Recognition."
arXiv:1812.08249, February 2019.

BibTeX

@techreport{Stroud:2019:DD3,
   author = "Jonathan C. Stroud and David A. Ross and Chen Sun and Jia Deng and
      Rahul Sukthankar",
   title = "{D{3D}}: Distilled {3D} Networks for Video Action Recognition",
   institution = "arXiv preprint",
   year = "2019",
   month = feb,
   number = "1812.08249"
}