Spectral Reconstruction Method for Specific Spatial Heterodyne Interferograms Based on Deep Neural Networks

分光计 遥感 光学 计算机科学 成像光谱仪 稳健性(进化) 图像分辨率 光谱分辨率 谱线 外差(诗歌) 干涉测量 物理 地质学 声学 化学 天文 基因 生物化学
作者
Wei Luo,Song Ye,Ziyang Zhang,Wei Xiong,Dacheng Li,Jun Wu,Xinqiang Wang,Shu Li,Fangyuan Wang
出处
期刊:Atmosphere [Multidisciplinary Digital Publishing Institute]
卷期号:16 (8): 909-909
标识
DOI:10.3390/atmos16080909
摘要

The spatial heterodyne spectrometer is an interferometric spectrometer specifically designed for particular detection targets, capable of achieving ultra-high spectral resolution within a designated spectral range. As the demand for signal detection accuracy continues to increase, the extraction of accurate target spectra from spatial heterodyne interferograms has become increasingly important. This paper applies a deep neural network to the spectral reconstruction of specific spatial heterodyne interferograms. The spectral reconstruction model, SRDNN, was trained using CO2 data simulated by the SCIATRAN radiative transfer model and the principles of spatial heterodyne spectroscopy. The results indicate that SRDNN has excellent CO2 spectral reconstruction performance, with an evaluation index R2 of 0.9943 and an MSE of 0.00021. The average difference between the reconstructed spectra and the target spectra is only 0.371%. Furthermore, the method was further validated using experimental data obtained from a spatial heterodyne spectrometer. The remarkable spectral reconstruction results and excellent evaluation indicators once again demonstrated the universality and effectiveness of the method. Finally, the robustness of the method was studied using noisy experimental data. The results demonstrate that the method can accurately reconstruct spectra from interferograms with slight noise without requiring additional processing, simplifying the spectral reconstruction process. This work is expected to provide novel methods and effective solutions for the spectral reconstruction of specific targets detected by spatial heterodyne spectrometers.
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