Monte Carlo Simulation of the Determination of Complex Mixed Solution with Hyperspectral Technique
LI Gang1, XIONG Chan1, LI Jia-xing1, 2, LIN Ling1, TONG Ying3, ZHANG Bao-ju3*
1. State Key Laboratory of Precision Measurement Technology and Instruments, Tianjin University, Tianjin 300072, China 2. College of Marine Science and Engineering, Tianjin University of Science &Technology, Tianjin 300457, China 3. College of Physics and Electronic Information, Tianjin Normal University, Tianjin 300387, China
Abstract:In order to overcome the defects of overlapping spectrum and low signal-to-noise ratio in the analysis of the complex mixed solution with the traditional spectral method, the authors introduce hyperspectral technique to the analysis of complex mixed solution in the present article. The hyperspectral technique can use the information of the analytes carried by multi-mode photons to analyze the solution. Compared with the traditional methods that only use the absorption characteristics for analysis, the hyperspectral technique also use the space information to increase the spectral signal-to-noise ratio and to improve the modeling accuracy and reliability. To verify the feasibility of the analysis of complex mixed solution with hyperspectral technique, the authors take Monte Carlo simulation to simulate the distribution of the diffuse light of the Intralipid-Ink model in the range of 650~1 100 nm; the distribution of the diffuse light of the complex mixed solution is obviously different at different wavelengths. It is proved that the hyperspectral technique can use characteristic changes with the wavelengths of the analyte, greatly improve the signal to noise ratio, and has the potential to significantly enhance the ability of the component analysis of complex mixed solution.
Key words:Complex mixed solution;Hyperspectral;Diffuse reflection;Monte carlo simulation;Component analysis
李 刚1,熊 婵1,李家星1, 2,林 凌1,佟 颖3,张宝菊3* . 高光谱检测复杂混合溶液的Monte Carlo仿真研究[J]. 光谱学与光谱分析, 2011, 31(11): 3014-3017.
LI Gang1, XIONG Chan1, LI Jia-xing1, 2, LIN Ling1, TONG Ying3, ZHANG Bao-ju3* . Monte Carlo Simulation of the Determination of Complex Mixed Solution with Hyperspectral Technique. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2011, 31(11): 3014-3017.
[1] LIU Min,DUAN Yu-shu,SONG Yuan-yuan,et al(刘 敏,端裕树,宋苑苑,等). Chinese Journal of Analytical Chemistry(分析化学),2006,34(7):941. [2] Wang Hong,Wu Baoming. 7th Asia-Pacific Conference on Medical and Biological Engineering,2008,19(8):298. [3] JIANG Yan,CAO Yong-lin,ZHANG Zhen-hui(江 艳,曹永琳,张振辉). The Administration and Technique of Environmental Monitoring(环境监测管理与技术),2004,16(3):48. [4] Calhoun W R,Maeta H,Roy S,et al. Journal of Dairy Science,2010,93(8):3497. [5] Lindbergh T,Fredriksson I,Larsson M,et al. Optics Express,2009,17(3):1610. [6] Taniguchi J,Murata H,Okamura Y. Jpn. J. Appl. Phys. 2007,46(8):2953. [7] Bordier C,Andraud C,Charron E,et al. Apploed Physics A: Materials Science & Processing,2009,94(2):347. [8] ZHU Li,YAO Yan-juan,WU Chuan-qing,et al(朱 利,姚延娟,吴传庆,等). Geography and Geo-Information Science(地理与地理信息科学),2010,26(2):81. [9] XUE Long,LI Jing,LIU Mu-hua(薛 龙,黎 静,刘木华). Acta Optica Sinica(光学学报),2008,28(12):2277. [10] Qin J W,Lu R F. Postharvest Biology and Technology,2008,49(3):355. [11] Wang L H,Jacques S L,Zheng L Q. Computer Methods and Programs in Biomedicine,1995,47(2):131. [12] Hugo J van Staveren,Christian J M Moes,Jan van Marie,et al. Appl. Opt. 1991,30(31):4507.
