Related papers: Towards Automated Petrography

Towards Automated Petrography

URL: http://arxiv.org/abs/2511.00328v1
Date: Sat, 01 Nov 2025 00:15:18 GMT
Title: Towards Automated Petrography
Authors: Isai Daniel Chacón, Paola Ruiz Puentes, Jillian Pearse, Pablo Arbeláez,
Abstract summary: Petrography is a branch of geology that analyzes the mineralogical composition of rocks from microscopical thin section samples.<n>Large-scale Imaging and Thin section Optical-polarization Set (LITHOS) is the largest and most diverse publicly available experimental framework for automated petrography.<n>LITHOS includes 211,604 high-resolution RGB patches of polarized light and 105,802 expert-annotated grains across 25 mineral categories.
Score: 3.131620829073277
License: http://creativecommons.org/licenses/by-nc-sa/4.0/
Abstract: Petrography is a branch of geology that analyzes the mineralogical composition of rocks from microscopical thin section samples. It is essential for understanding rock properties across geology, archaeology, engineering, mineral exploration, and the oil industry. However, petrography is a labor-intensive task requiring experts to conduct detailed visual examinations of thin section samples through optical polarization microscopes, thus hampering scalability and highlighting the need for automated techniques. To address this challenge, we introduce the Large-scale Imaging and Thin section Optical-polarization Set (LITHOS), the largest and most diverse publicly available experimental framework for automated petrography. LITHOS includes 211,604 high-resolution RGB patches of polarized light and 105,802 expert-annotated grains across 25 mineral categories. Each annotation consists of the mineral class, spatial coordinates, and expert-defined major and minor axes represented as intersecting vector paths, capturing grain geometry and orientation. We evaluate multiple deep learning techniques for mineral classification in LITHOS and propose a dual-encoder transformer architecture that integrates both polarization modalities as a strong baseline for future reference. Our method consistently outperforms single-polarization models, demonstrating the value of polarization synergy in mineral classification. We have made the LITHOS Benchmark publicly available, comprising our dataset, code, and pretrained models, to foster reproducibility and further research in automated petrographic analysis.

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