[1] ZHANG Lian-shun, ZHANG Chun-ping, WANG Xin-yu, et al. Simulation study of noninvasive determination of the optical scattering and absorption coefficients of biological tissue［J］.Chinese Journal of Quantum Electronics, 2002, 19(4): 318-322.

[2] ZHANG Hang, YING Jin-pin, ZHOU Bin-he, et al. Reconstructing optical parameters of tissue with genetic algorithm［J］.Chinese Journal of Biomedical Engineering, 2001, 20(5): 430-435.

[3] QIN J, LU R. Monte Carlo simulation for quantification of light transport features in apples［J］.Computers and Electronics in Agriculture, 2009, 68(1): 44-51.

[4] WANG Xi-cang, HUA Zhen, MENG Zhao-kun. Time domain model of light transport in multi-layer matched biological tissue［J］.Acta Photonica Sinica, 2006, 35(7): 1060-1064.

[5] SHEN Ji-hong, SHANG Shou-ting, ZHAO Xi-ren. Functional transformation GM(1,1) model constructed for ship pitching［J］.Journal of Harbin Institute of Technology, 2001, 33(3): 291-294.

[6] QIAN Wu-yong, DANG Yao-guo. New type of data transformation and its application in GM(1,1) model［J］.Systems Engineering and Electronics, 2009, 31(12): 2879-2883.

[7] FU Ying, ZHANG Guang-lie, YANG Ru-qing. Date mapping optimization based grey model［J］.Systems Engineering and Electronics, 2004, 26(4): 430-436.

[8] CEN H, LU R, DOLAN K. Optimization of inverse algorithm for estimating the optical properties of biological materials using spatially resolved diffuse reflectance［J］.Inverse Problems in Science and Engineering, 2010, 18(6): 853-872.

[9] FARRELL T J, PATTERSON M S, WILSON B. A diffusion-theory model of spatially-resolved, steady-state diffuse reflectance for the noninvasive determination of tissue optical properties vivo［J］.Medical Physics, 1992, 19(4): 879-888.

[10] KIENLE A, PATTERSON, M S. Improved solutions of the steady-state and the time-resolved diffusion equations for reflectance from a semi-infinite turbid medium［J］.Journal of the Optical Society of America A, 1997, 14(1-3): 246-254.

[11] HASKELL R C, SVAASAND L O, TSAY T T, et al. Boundary conditions for the diffusion equation in radiative transfer［J］.Journal of the Optical Society of America. A, 1994, 11(10): 2727-2741.

[12] MOURANT J R, FUSELIER, T, BOYER J, et al. Predictions and measurements of scattering and absorption over broad wavelength ranges in tissue phantoms［J］.Applied Optics, 1997, 36(4-6): 949-957.

[13] THOMAS F Ｃ, LI Y Y. On the convergence of interiro-reflective Newton methods for nonlinear minimization subject to bounds［J］.Mathematical Programming, 1994, 67(1-3): 189-224.

[14] BUDIASTRA I W, IKEDA Y, NISHIZU T. Optical methods for quality evaluation of fruits (part 1)-optical properties of selected fruits using the Kubelka-Munk theory and their relationships with fruit maturity and sugar content［J］.Journal of the Japanese Society of Agricultural Machinery, 1998, 60(2): 117-128.

[15] CUBEDDU R, D′ANDREA C, PIFFERI A, et al. Time-resolved reflectance spectroscopy applied to the nondestructive monitoring of the internal optical properties in apples［J］.Applied Spectroscopy, 2001, 55(10): 1368-1374.

[16] WANG L, JACQUES S L, ZHENG L. Monte Carlo modeling of light transport in mult-layered tissues［J］.Computer Methods and Programs in Biomedicine, 1995, 47(2): 131-146.

[17] LIN Lin, ZHANG Lin-na, LI Xiao-xia, et al. Monte Carlo simulation based on diffuse hyperspectrum collection with detection fiber［J］.Spectroscopy and Spectral Analysis, 2008, 34(1): 185-190.

[18] ZHNAG Tao, BAI Jing. Principle, current status and development of Monte Carlo modeling of migration in biological tissue［J］.International Journal of Biomedical Engineering, 2014, 31(1): 24-28.

[19] MISHRA D K, DOLAN K D, YANG L. Confidence intervals for modeling anthocyanin retention in grape pomace during nonisothermal heating［J］.Journal of Food Science, 2008, 73(1): 9-15.