PolarGS: Polarimetric Cues for Ambiguity-Free Gaussian Splatting with Accurate Geometry Recovery

• URL: http://arxiv.org/abs/2512.00794v1
• Date: Sun, 30 Nov 2025 09:08:37 GMT
• Title: PolarGS: Polarimetric Cues for Ambiguity-Free Gaussian Splatting with Accurate Geometry Recovery
• Authors: Bo Guo, Sijia Wen, Yifan Zhao, Jia Li, Zhiming Zheng,
• Abstract summary: PolarGS is an optics-aware extension of RGB-based 3DGS that leverages polarization as an optical prior to resolve photometric ambiguities.<n>PolarGS is framework-agnostic and achieves superior geometric accuracy compared to state-of-the-art methods.
• Score: 14.082018861698371
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: Recent advances in surface reconstruction for 3D Gaussian Splatting (3DGS) have enabled remarkable geometric accuracy. However, their performance degrades in photometrically ambiguous regions such as reflective and textureless surfaces, where unreliable cues disrupt photometric consistency and hinder accurate geometry estimation. Reflected light is often partially polarized in a manner that reveals surface orientation, making polarization an optic complement to photometric cues in resolving such ambiguities. Therefore, we propose PolarGS, an optics-aware extension of RGB-based 3DGS that leverages polarization as an optical prior to resolve photometric ambiguities and enhance reconstruction accuracy. Specifically, we introduce two complementary modules: a polarization-guided photometric correction strategy, which ensures photometric consistency by identifying reflective regions via the Degree of Linear Polarization (DoLP) and refining reflective Gaussians with Color Refinement Maps; and a polarization-enhanced Gaussian densification mechanism for textureless area geometry recovery, which integrates both Angle and Degree of Linear Polarization (A/DoLP) into a PatchMatch-based depth completion process. This enables the back-projection and fusion of new Gaussians, leading to more complete reconstruction. PolarGS is framework-agnostic and achieves superior geometric accuracy compared to state-of-the-art methods.

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