Bibliographic Information: Wen, Y., Lin, J., Zhu, Y., Han, J., Xu, H., Zhao, S., & Liang, X. (2024). VidMan: Exploiting Implicit Dynamics from Video Diffusion Model for Effective Robot Manipulation. Advances in Neural Information Processing Systems, 38.
Research Objective: This paper introduces VidMan, a novel framework that leverages video diffusion models to improve the accuracy of robot action prediction in manipulation tasks. The research aims to address the limitations of traditional data-driven methods, particularly in situations with limited robot data.
Methodology: VidMan employs a two-stage training mechanism inspired by the dual-process theory in neuroscience. The first stage, Dynamics-aware Visionary Stage, involves pre-training a video diffusion model (Open-Sora) on the Open X-Embodiment (OXE) dataset to predict future visual trajectories. This enables the model to develop an understanding of environmental dynamics. The second stage, Dynamics-modulated Action Stage, introduces a layer-wise self-attention adapter to transform the pre-trained model into an efficient inverse dynamics model. This adapter predicts actions modulated by the learned dynamics knowledge through parameter sharing.
Key Findings: VidMan demonstrates superior performance compared to state-of-the-art baseline models on both simulation and offline evaluations. On the CALVIN benchmark, VidMan achieves an 11.7% relative improvement over the GR-1 model in terms of average task completion length. Additionally, VidMan exhibits significant gains on the OXE small-scale dataset, particularly in domains with limited data, highlighting its efficient data utilization.
Main Conclusions: The study concludes that incorporating world models, specifically video diffusion models, can significantly enhance the precision of robot action prediction. The two-stage training mechanism, inspired by dual-process theory, proves effective in leveraging diverse robot data and improving generalization performance.
Significance: This research contributes to the field of robot manipulation by introducing a novel framework that effectively utilizes video diffusion models for action prediction. The proposed method addresses the challenge of limited robot data and offers a promising approach for developing more capable and responsive robotic systems.
Limitations and Future Research: While VidMan demonstrates promising results, the authors acknowledge the potential for further exploration. Future research could focus on incorporating multi-modal sensory information, such as tactile and proprioceptive data, to enhance the model's understanding of the environment and improve action prediction accuracy.
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by Youpeng Wen,... : arxiv.org 11-15-2024
https://arxiv.org/pdf/2411.09153.pdfDaha Derin Sorular