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氢气拉曼光谱压缩感知方法分析研究
引用本文:任永甜,胡仪,陈骏,陈钧. 氢气拉曼光谱压缩感知方法分析研究[J]. 光谱学与光谱分析, 2022, 42(3): 776-782. DOI: 10.3964/j.issn.1000-0593(2022)03-0776-07
作者姓名:任永甜  胡仪  陈骏  陈钧
作者单位:中国工程物理研究院表面物理与化学重点实验室,四川 绵阳 621908
基金项目:国家重点研发计划课题(2017YFE0301506);
摘    要:气体监测与我们的生活息息相关,氢气作为一种理想的研究模型更是受到广泛关注.拉曼光谱作为一种气体分析手段,具有无损非接触等优点.气体拉曼光谱测量存在的一个主要问题是拉曼散射信号弱.在一些特定场景下,需要信号采集时间较短,因此获得的拉曼光谱信噪比低.压缩感知方法作为一种新发展起来的信号处理手段,不仅可以压缩采样,缩短采样时...

关 键 词:拉曼光谱  压缩感知  正交匹配追踪  氢同位素气体
收稿时间:2021-02-05

Study on Compressed Sensing Method for Raman Spectroscopic Analysis of Isotope Hydrogen Gas
REN Yong-tian,HU Yi,CHEN Jun. Study on Compressed Sensing Method for Raman Spectroscopic Analysis of Isotope Hydrogen Gas[J]. Spectroscopy and Spectral Analysis, 2022, 42(3): 776-782. DOI: 10.3964/j.issn.1000-0593(2022)03-0776-07
Authors:REN Yong-tian  HU Yi  CHEN Jun
Affiliation:Science and Technology on Surface Physics and Chemistry Laboratory, China Academy of Engineering Physics, Mianyang 621908, China
Abstract:Gas monitoring is closely related to our lives, and hydrogen as an ideal research model has received widespread attention. Raman spectroscopy has the advantages of non-destructive and non-contact measurements. One of the main problems in Raman measurement for gases is the weak Raman scattering. In some specific scenarios, the signal acquisition time is required to be short, so the obtained Raman spectrum has a low signal-to-noise ratio. As a newly developed signal processing method, the compressed sensing method can compress and sample the signal, shorten the sampling time, and reduce the noise and improve the signal-to-noise ratio to better realize the restoration and reconstruction of the original signal. This study used hydrogen and deuterium mixed gas as the measurement object. Two compressed sensing methods were used to analyze the Raman spectra with different sparse matrices: One of the sparse matrices using the Lorentz function to design atoms of the dictionary of OMP (Orthogonal Matching Pursuit) algorithm, and another sparse matrix using Fourier transform filtering to construct the orthogonal basis dictionary of OMP. Through the processing of simulation data and actual measurement data, we compare the effects of the two methods of compressed sensing analysis with wavelet soft threshold, hard wavelet threshold and SG (Sawitzky-Golay) filter processing, and peak intensity, signal-to-noise ratio, and root mean square error. It is demonstrated that using the Lorentz function to design the dictionary of the OMP algorithm can reduce noise for gas Raman spectra.
Keywords:Raman spectroscopy  Compressed sensing  Orthogonal matching pursuit  Hydrogen isotope gas  
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