Interacting Attention Graph for Single Image Two-Hand Reconstruction
This work addresses the domain-specific problem of two-hand reconstruction for computer vision applications, representing an incremental advance by extending graph convolutional networks to interacting hands.
The paper tackles the problem of reconstructing two interacting hands from a single RGB image, which is challenging due to occlusions and interactions, and introduces IntagHand, a graph convolutional network that outperforms existing methods by a large margin on the InterHand2.6M benchmark.
Graph convolutional network (GCN) has achieved great success in single hand reconstruction task, while interacting two-hand reconstruction by GCN remains unexplored. In this paper, we present Interacting Attention Graph Hand (IntagHand), the first graph convolution based network that reconstructs two interacting hands from a single RGB image. To solve occlusion and interaction challenges of two-hand reconstruction, we introduce two novel attention based modules in each upsampling step of the original GCN. The first module is the pyramid image feature attention (PIFA) module, which utilizes multiresolution features to implicitly obtain vertex-to-image alignment. The second module is the cross hand attention (CHA) module that encodes the coherence of interacting hands by building dense cross-attention between two hand vertices. As a result, our model outperforms all existing two-hand reconstruction methods by a large margin on InterHand2.6M benchmark. Moreover, ablation studies verify the effectiveness of both PIFA and CHA modules for improving the reconstruction accuracy. Results on in-the-wild images and live video streams further demonstrate the generalization ability of our network. Our code is available at https://github.com/Dw1010/IntagHand.