arxiv:2412.19841

FlameGS: Reconstruct flame light field via Gaussian Splatting

Published on Dec 24, 2024

Authors:

Yunhao Shui ,

Abstract

A novel representation method for flame combustion diagnosis using 2D projection images achieves high image quality and significant computational savings compared to traditional algorithms.

AI-generated summary

To address the time-consuming and computationally intensive issues of traditional ART algorithms for flame combustion diagnosis, inspired by flame simulation technology, we propose a novel representation method for flames. By modeling the luminous process of flames and utilizing 2D projection images for supervision, our experimental validation shows that this model achieves an average structural similarity index of 0.96 between actual images and predicted 2D projections, along with a Peak Signal-to-Noise Ratio of 39.05. Additionally, it saves approximately 34 times the computation time and about 10 times the memory compared to traditional algorithms.

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