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Poster

NeuMA: Neural Material Adaptor for Visual Grounding of Intrinsic Dynamics

Junyi Cao · Shanyan Guan · Yanhao Ge · Wei Li · Xiaokang Yang · Chao Ma

East Exhibit Hall A-C #3809
[ ] [ Project Page ]
Fri 13 Dec 11 a.m. PST — 2 p.m. PST

Abstract:

While humans effortlessly discern intrinsic dynamics and adapt to new scenarios, modern AI systems often struggle. Current methods for visual grounding of dynamics either use pure neural-network-based simulators (black box), which can violate physical laws, or traditional physical simulators (white box), which rely on expert-defined equations that may not fully capture actual dynamics. We propose the Neural Material Adaptor (NeuMA), which integrates existing physical laws with learned corrections, facilitating accurate learning of actual dynamics while maintaining the generalizability and interpretability of physical priors. Additionally, we propose Particle-GS, a particle-driven 3D Gaussian Splatting variant, bridges simulation and observed images, allowing back-propagate image gradients to optimize the simulator. Comprehensive experiments on various dynamics in terms of grounded particle accuracy, novel-view quality, and generalization ability demonstrate that NeuMA can accurately capture intrinsic dynamics.

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