PaStaNet: Toward Human Activity Knowledge Engine
This addresses the performance bottleneck in activity recognition for computer vision applications, offering a novel method with significant gains.
The paper tackles the problem of image-based activity understanding by proposing a new approach that infers human part states (PaSta) first and then reasons out activities, achieving improvements such as 6.4 and 13.9 mAP on HICO datasets and 3.2 and 4.2 mAP on V-COCO and AVA in transfer learning.
Existing image-based activity understanding methods mainly adopt direct mapping, i.e. from image to activity concepts, which may encounter performance bottleneck since the huge gap. In light of this, we propose a new path: infer human part states first and then reason out the activities based on part-level semantics. Human Body Part States (PaSta) are fine-grained action semantic tokens, e.g. <hand, hold, something>, which can compose the activities and help us step toward human activity knowledge engine. To fully utilize the power of PaSta, we build a large-scale knowledge base PaStaNet, which contains 7M+ PaSta annotations. And two corresponding models are proposed: first, we design a model named Activity2Vec to extract PaSta features, which aim to be general representations for various activities. Second, we use a PaSta-based Reasoning method to infer activities. Promoted by PaStaNet, our method achieves significant improvements, e.g. 6.4 and 13.9 mAP on full and one-shot sets of HICO in supervised learning, and 3.2 and 4.2 mAP on V-COCO and images-based AVA in transfer learning. Code and data are available at http://hake-mvig.cn/.