AssembleNet: Searching for Multi-Stream Neural Connectivity in Video Architectures

May 30, 2019 Β· Declared Dead Β· πŸ› International Conference on Learning Representations

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Authors Michael S. Ryoo, AJ Piergiovanni, Mingxing Tan, Anelia Angelova arXiv ID 1905.13209 Category cs.CV: Computer Vision Cross-listed cs.LG, cs.NE Citations 107 Venue International Conference on Learning Representations Last Checked 4 months ago
Abstract
Learning to represent videos is a very challenging task both algorithmically and computationally. Standard video CNN architectures have been designed by directly extending architectures devised for image understanding to include the time dimension, using modules such as 3D convolutions, or by using two-stream design to capture both appearance and motion in videos. We interpret a video CNN as a collection of multi-stream convolutional blocks connected to each other, and propose the approach of automatically finding neural architectures with better connectivity and spatio-temporal interactions for video understanding. This is done by evolving a population of overly-connected architectures guided by connection weight learning. Architectures combining representations that abstract different input types (i.e., RGB and optical flow) at multiple temporal resolutions are searched for, allowing different types or sources of information to interact with each other. Our method, referred to as AssembleNet, outperforms prior approaches on public video datasets, in some cases by a great margin. We obtain 58.6% mAP on Charades and 34.27% accuracy on Moments-in-Time.
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