English

Learning Multi-frame and Monocular Prior for Estimating Geometry in Dynamic Scenes

Computer Vision and Pattern Recognition 2025-07-29 v3

Abstract

In monocular videos that capture dynamic scenes, estimating the 3D geometry of video contents has been a fundamental challenge in computer vision. Specifically, the task is significantly challenged by the object motion, where existing models are limited to predict only partial attributes of the dynamic scenes, such as depth or pointmaps spanning only over a pair of frames. Since these attributes are inherently noisy under multiple frames, test-time global optimizations are often employed to fully recover the geometry, which is liable to failure and incurs heavy inference costs. To address the challenge, we present a new model, coined MMP, to estimate the geometry in a feed-forward manner, which produces a dynamic pointmap representation that evolves over multiple frames. Specifically, based on the recent Siamese architecture, we introduce a new trajectory encoding module to project point-wise dynamics on the representation for each frame, which can provide significantly improved expressiveness for dynamic scenes. In our experiments, we find MMP can achieve state-of-the-art quality in feed-forward pointmap prediction, e.g., 15.1% enhancement in the regression error.

Keywords

Cite

@article{arxiv.2505.01737,
  title  = {Learning Multi-frame and Monocular Prior for Estimating Geometry in Dynamic Scenes},
  author = {Seong Hyeon Park and Jinwoo Shin},
  journal= {arXiv preprint arXiv:2505.01737},
  year   = {2025}
}

Comments

This paper was supported by RLWRLD

R2 v1 2026-06-28T23:19:59.046Z