[1] ZHAO Y H, BERNS S R, TAPLIN A L, et al.. An investigation of multispectral imaging for the mapping pigments in paintings[C]. Proc. of SPIE-IS&T Electronic Imaging, 2008,6810:681007-1-9.
[2] BOCKHKO V, TSUMURA N, MIYAKE Y. A spectral color imaging system for estimating spectral reflectance of paint[J]. Journal of Imaging Science and Technology, 2007,51(1):70-78.
[3] WILLIAM J C, XIN Q, FORAN D J. Moving beyond color:the case for multispectral imaging for brightfield pathology[C]. Proc. of IEEE International Symposium on Biomedical Imaging, ISBI’09, 2009:1111-1114.
[4] WU Q, ZENG L, ZHENG H, et al.. Precise segmentation of white blood cells by using multi spectral imaging analysis techniques[C]. Proc. of Intelligent Networks and Intelligent Systems, Wuhan: ICINIS’08, 2008:491-494.
[5] WU C Y, LEE S M, WEN C H, et al.. Multi-spectral image acquisition system for color spectrum reproduction[C]. Proc. of CVGIP,2003:115-122.
[6] BAKKE M A, FARUP I, HARDEBERG Y J. Multispectral gamut mapping and visualization—a first attempt[J]. SPIE, 2005,5667:193-200.
[7] TANG H, ZHENG W B, LI X X. Application of principal component analysis to selection of characteristic wavelengths with total light scattering[J]. Opt. Precision Eng., 2010,18(8):169-1698.(in Chineses)
[8] DERKHA W M , ROSEN R M. Spectral colorimetry using LabPQR: An interim connection space[J]. Journal of IS&T, 2006,50(1):53-63.
[9] ROSEN R M, DERHAK W M. Spectral gamuts and spectral gamut mapping[J]. SPIE-IS&T, 2006,6062:60620K-1-11.
[10] TSUTSUMI S, ROSEN R M, BERNS S R. Spectral color management using interim connection space based on spectral decomposition[J]. Color Research & Application, 2008,33(4):282-299.
[12] JOLLIFFE I T. Principal Component Analysis[M]. Springer-Verlag, New York, 1986:1.
[13] TANG S Q. Colorimetry[M]. Beijing: Beijing Institute of Technology Press, 1991:69-76,95-100.(in Chinese)
[14] IMAI H F, ROSEN R M, BERNS S R. Comparative study of metrics for spectral match quality[C]. Proc. CGIV,2002:492-496.
