English

Pixel2Phys: Distilling Governing Laws from Visual Dynamics

Computational Engineering, Finance, and Science 2026-02-24 v1

Abstract

Discovering physical laws directly from high-dimensional visual data is a long-standing human pursuit but remains a formidable challenge for machines, representing a fundamental goal of scientific intelligence. This task is inherently difficult because physical knowledge is low-dimensional and structured, whereas raw video observations are high-dimensional and redundant, with most pixels carrying little or no physical meaning. Extracting concise, physically relevant variables from such noisy data remains a key obstacle. To address this, we propose Pixel2Phys, a collaborative multi-agent framework adaptable to any Multimodal Large Language Model (MLLM). It emulates human scientific reasoning by employing a structured workflow to extract formalized physical knowledge through iterative hypothesis generation, validation, and refinement. By repeatedly formulating, and refining candidate equations on high-dimensional data, it identifies the most concise representations that best capture the underlying physical evolution. This automated exploration mimics the iterative workflow of human scientists, enabling AI to reveal interpretable governing equations directly from raw observations. Across diverse simulated and real-world physics videos, Pixel2Phys discovers accurate, interpretable governing equations and maintaining stable long-term extrapolation where baselines rapidly diverge.

Keywords

Cite

@article{arxiv.2602.19516,
  title  = {Pixel2Phys: Distilling Governing Laws from Visual Dynamics},
  author = {Ruikun Li and Jun Yao and Yingfan Hua and Shixiang Tang and Biqing Qi and Bin Liu and Wanli Ouyang and Yan Lu},
  journal= {arXiv preprint arXiv:2602.19516},
  year   = {2026}
}

Comments

CVPR2026 main track

R2 v1 2026-07-01T10:46:53.521Z