SPA: 3D Spatial-Awareness Enables Effective Embodied Representation
Keywords: embodied AI, representation learning, 3D spatial awareness, multi-view image, robot manipulation, neural rendering
TL;DR: We introduce SPA, a novel framework that enhances 3D spatial awareness in embodied AI representation learning, outperforming existing models across 268 tasks and 8 simulators.
Abstract: In this paper, we introduce SPA, a novel representation learning framework that emphasizes the importance of 3D spatial awareness in embodied AI. Our approach leverages differentiable neural rendering on multi-view images to endow a vanilla Vision Transformer (ViT) with intrinsic spatial understanding. We present the most comprehensive evaluation of embodied representation learning to date, covering 268 tasks across 8 simulators with diverse policies in both single-task and language-conditioned multi-task scenarios. The results are compelling: SPA consistently outperforms more than 10 state-of-the-art representation methods, including those specifically designed for embodied AI, vision-centric tasks, and multi-modal applications, while using less training data. Furthermore, we conduct a series of real-world experiments to confirm its effectiveness in practical scenarios. These results highlight the critical role of 3D spatial awareness for embodied representation learning. Our strongest model takes more than 6000 GPU hours to train and we are committed to open-sourcing all code and model weights to foster future research in embodied representation learning.
Primary Area: applications to robotics, autonomy, planning
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Submission Number: 996
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