Litcius/Paper detail

Pose-Appearance Relational Modeling for Video Action Recognition

Mengmeng Cui, Wei Wang, Kunbo Zhang, Zhenan Sun, Liang Wang

2022IEEE Transactions on Image Processing22 citationsDOI

Abstract

Recent studies of video action recognition can be classified into two categories: the appearance-based methods and the pose-based methods. The appearance-based methods generally cannot model temporal dynamics of large motion well by virtue of optical flow estimation, while the pose-based methods ignore the visual context information such as typical scenes and objects, which are also important cues for action understanding. In this paper, we tackle these problems by proposing a Pose-Appearance Relational Network (PARNet), which models the correlation between human pose and image appearance, and combines the benefits of these two modalities to improve the robustness towards unconstrained real-world videos. There are three network streams in our model, namely pose stream, appearance stream and relation stream. For the pose stream, a Temporal Multi-Pose RNN module is constructed to obtain the dynamic representations through temporal modeling of 2D poses. For the appearance stream, a Spatial Appearance CNN module is employed to extract the global appearance representation of the video sequence. For the relation stream, a Pose-Aware RNN module is built to connect pose and appearance streams by modeling action-sensitive visual context information. Through jointly optimizing the three modules, PARNet achieves superior performances compared with the state-of-the-arts on both the pose-complete datasets (KTH, Penn-Action, UCF11) and the challenging pose-incomplete datasets (UCF101, HMDB51, JHMDB), demonstrating its robustness towards complex environments and noisy skeletons. Its effectiveness on NTU-RGBD dataset is also validated even compared with 3D skeleton-based methods. Furthermore, an appearance-enhanced PARNet equipped with a RGB-based I3D stream is proposed, which outperforms the Kinetics pre-trained competitors on UCF101 and HMDB51. The better experimental results verify the potentials of our framework by integrating various modules.

Topics & Concepts

Computer scienceArtificial intelligenceRobustness (evolution)PoseComputer visionPattern recognition (psychology)Optical flowAction recognitionContext (archaeology)Articulated body pose estimationImage (mathematics)3D pose estimationBiochemistryPaleontologyGeneBiologyChemistryClass (philosophy)Human Pose and Action RecognitionVideo Surveillance and Tracking MethodsAdvanced Vision and Imaging