ABOUT IMPORTANCE OF POSITIVITY CONSTRAINT FOR SOURCE SEPARATION IN FLUORESCENCE SPECTROSCOPY

机译：关于荧光光谱中源分离的正性约束的重要性

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The importance of positivity constraint in source separation techniques for spectroscopic applications is presented in this paper. Microspectrofluorometry measures fluorescence signals emitted by the analyzed tissues. The information associated to each pure chemical species must be estimated in order to characterize these tissues. Source separation techniques are well suited to this task. However, pure species spectra and concentrations non-negativity must be considered to obtain a realistic solution. Applications of fluorescence spectroscopy on wheat and barley grains are analyzed. Each one has specific properties suggesting the use of two conceptually different algorithms: Non-negative Matrix Factorization (NMF) and Second Order Blind Identification followed by a positive procedure ("positive SOBI"). We show that no complementary experiments are needed to identify chemical species of the analyzed tissues.

机译：本文介绍了正性约束在光谱应用的源分离技术中的重要性。显微荧光法可测量被分析组织发出的荧光信号。必须估计与每种纯化学物质有关的信息，以表征这些组织。源分离技术非常适合此任务。但是，必须考虑纯物种谱图和浓度非负性，才能获得现实的解决方案。分析了荧光光谱在小麦和大麦籽粒上的应用。每个属性都有特定的属性，建议使用两种概念上不同的算法：非负矩阵分解（NMF）和二阶盲识别，后跟一个正过程（“正SOBI”）。我们表明，不需要补充实验即可确定分析组织的化学物种。

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来源
《European Signal Processing Conference(EUSIPCO 2005); 20050904-08; Antalya(TK)》|2005年|P.1219-1223|共5页
会议地点 Antalya(TK)
作者
Cyril Gobinet; Abdelkamel Elhafid; Valeriu Vrabie; Regis Huez; Danielle Nuzillard;
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Centre de Recherche en Sciences et Technologies de l'lnformation et de la Communication Universite de Reims Champagne-Ardenne Campus du Moulin de la Housse, B.P. 1039, 51687 REIMS Cedex 2, FRANCE;

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中图分类信息处理（信息加工）;
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1. Processing Excitation-Emission Matrix Fluorescence and Total Synchronous Fluorescence Spectroscopy Data Sets with Constraint Randomised Non-negative Factor Analysis: a Novel Fluorescence Based Analytical Procedure to Analyse the Multifluorophoric Mixtures [J] . Kumar Keshav Journal of Fluorescence . 2018,第5期

机译：加工激发发射矩阵荧光和总同步荧光光谱数据集，具有约束随机性非负因子分析：基于新的荧光分析方法分析多氟化物混合物
2. Two-Point Separation in Far-Field Super-Resolution Fluorescence Microscopy Based on Two-Color Fluorescence Dip Spectroscopy, Part I: Experimental Evaluation [J] . TAKESHI WATANABE, YOSHINORI IKETAKI, TAKASHIGE OMATSU, Applied Spectroscopy: Society for Applied Spectroscopy . 2005,第7期

机译：基于双色荧光浸没光谱的远场超高分辨率荧光显微镜中的两点分离，第一部分：实验评估
3. Source apportionment of environmental combustion sources using excitation emission matrix fluorescence spectroscopy and machine learning [J] . Rutherford Jay W., Larson Timothy V., Gould Timothy, Atmospheric environment . 2021,第Auga期

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4. About importance of positivity constraint for source separation in fluorescence spectroscopy [C] . Gobinet Cyril, Elhafid Abdelkamel, Vrabie Valeriu, European Signal Processing Conference . 2005

机译：关于正性约束对于荧光光谱中源分离的重要性
5. On the separation of T Tauri star spectra using non-negative matrix factorization and Bayesian positive source separation. [D] . Kenney, Colleen. 2010

机译：关于使用非负矩阵分解和贝叶斯正源分离的T Tauri星光谱的分离。
6. Specialized source-detector separations in near-infrared reflectance spectroscopy platform enable effective separation of diffusion and absorption for glucose sensing [O] . Jin Liu, Tongshuai Han, Jingying Jiang, 2019

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7. ABOUT IMPORTANCE OF POSITIVITY CONSTRAINT FOR SOURCE SEPARATION IN FLUORESCENCE SPECTROSCOPY [O] . Gobinet Cyril, Elhafid Abdelkamel, Vrabie Valeriu, 2005

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8. Polystyrene-Methylcyclohexane Solutions Undergoing Phase Separation. A Study by Fluorescence Spectroscopy. [R] . Torkelson, J. M., Tirrell, M., Frank, C. W. 1984

机译：聚苯乙烯 - 甲基环己烷溶液进行相分离。荧光光谱研究。

ABOUT IMPORTANCE OF POSITIVITY CONSTRAINT FOR SOURCE SEPARATION IN FLUORESCENCE SPECTROSCOPY

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