Video Classification with FineCoarse Networks

A rich representation of the information in video data can be realized by means of frequency analysis. Fine motion details from the boundaries of moving regions are characterized by high frequencies in the spatio-temporal domain. Meanwhile, lower frequencies are encoded with coarse information containing substantial redundancy, which causes low efficiency for those video models that take as input raw RGB frames. In this work, we propose a Motion Band-pass Module (MBPM) for separating the fine-grained information from coarse information in raw video data. By representing the coarse information with low resolution, we can increase the efficiency of video data processing. By embedding the MBPM into a two-pathway CNN architecture, we define a FineCoarse network. The efficiency of the FineCoarse network is determined by avoiding the redundancy in the feature space processed by the two pathways: one operates on downsampled features of low-resolution data, while the other operates on the fine-grained motion information captured by the MBPM. The proposed FineCoarse network outperforms many recent video processing models on Kinetics400, UCF101 and HMDB51. Furthermore, our approach achieves the state-of-the-art with 57.0% top-1 accuracy on Something-Something V1.