EgoAERO: Learning Dexterous Manipulation from a Single Egocentric Video without Object Assets

Egocentric RGB-D videos offer a natural source of human dexterous manipulation demonstrations, but existing data is difficult to use for robot learning because object pose, geometry, and contact information are often missing or require pre-scanned object assets. We present EgoAERO, the first framework that learns dexterous manipulation from a single egocentric RGB-D human demonstration without object assets. EgoAERO reconstructs contact-consistent hand-object trajectories through asset-free object tracking and reconstruction, ego motion compensation, and adaptive contact optimization, then converts them into robot policies using two-stage residual learning. We further introduce an online quality assessment mechanism and construct EgoDex-R, a large-scale egocentric dataset with 4.3M RGB-D frames for dexterous policy learning. Simulation and real-world experiments show that EgoAERO enables single-demonstration dexterous manipulation and achieves downstream performance close to CAD-based reconstructions on HOI4D.

MMGraphRAG: Bridging Vision and Language with Interpretable Multimodal Knowledge Graphs

Retrieval-Augmented Generation (RAG) enhances language model generation by retrieving relevant information from external knowledge bases. However, conventional RAG methods face the issue of missing multimodal information. Multimodal RAG methods address this by fusing images and text through mapping them into a shared embedding space, but they fail to capture the structure of knowledge and logical chains between modalities. Moreover, they also require large-scale training for specific tasks, resulting in limited generalizing ability. To address these limitations, we propose MMGraphRAG, which refines visual content through scene graphs and constructs a multimodal knowledge graph (MMKG) in conjunction with text-based KG. It employs spectral clustering to achieve cross-modal entity linking and retrieves context along reasoning paths to guide the generative process. Experimental results show that MMGraphRAG achieves state-of-the-art performance on the DocBench and MMLongBench datasets, demonstrating strong domain adaptability and clear reasoning paths.