Abstract:Derivative can correct baseline effects and also increase the level of noise. Wavelet transform has been proven an efficient tool for de-noising. This paper is directed to the application of wavelet transfer and derivative in the NIR analysis of octane number (RON). The derivative parameters, as well as their effects on the noise level and analytic accuracy of RON, have been studied in detail. The results show that derivative can correct the baseline effects and increase the analytic accuracy. Noise from the derivative spectra has great detriment to the analysis of RON. De-noising of wavelet transform can increase the S/N and improve the analytical accuracy.
[1] Arve J Iversen, Torgny Palm. Applied Spectrosc., 1985, 39: 641. [2] Dhanoa B J, Barnes M S, Lister S J. Applied Spectrosc., 1989, 43: 772. [3] Wold S,Anti H et al. Chemom. Intlell. Lab. Syst., 1998, 44: 175. [4] Nicolaas M Faber. Anal. Chem., 1999, 71: 557. [5] LU Xiao-quan,MO Jin-yuan(卢小泉,莫金垣). Chinese J. Analytic Chemistry(分析化学),1996,24(9):1100. [6] SHAO Xue-guang,PANG Chun-yan,SUN Li(邵学广,庞春艳,孙 莉). Process in Chemistry(化学进展),2000,12(3):243. [7] LIU Chong-chun,QIU Zheng-ding,DU Xi-yu(刘崇春,裘正定,杜锡钰). J. Northern Jiao Tong University(北方交通大学学报),1997,21(1):21. [8] Barclay V J, Bonner R F, Hamilton I P. Anal. Chem., 1997, 69(1): 78. [9] Alsberg B K, Woodward A M, Winson M K et al. Analyst, 1997, 122(7): 645. [10] XU Guang-tong, YUAN Hong-fu, LU Wan-zhen(徐广通, 袁洪福, 陆婉珍). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2000, 20(5): 619.
