[1] TONG Qing-xi, XUE Yong-qi, ZHANG Li-fu. Progress in hyperspectral remote sensing science and technology in China over the past three decades［J］. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2014, 7(1): 70-91.

[2] LORENTE D, ALEIXOS N, SANCHIS J G, et al. Recent advances and applications of hyperspectral imaging for fruit and vegetable quality assessment［J］. Food and Bioprocess Technology, 2012, 5(4): 1121-1142.

[3] PARK B, LEE S, YOON S C, et al. AOTF hyperspectral microscope imaging for foodborne pathogenic bacteria detection［C］. SPIE, 2011, 8027: 802707.

[4] GEBHART S C, THOMPSON R C, ANITA M J. Liquid-crystal tunable filter spectral imaging for brain tumor demarcation［J］. Applied Optics, 2007, 46(10): 1896-1910.

[6] YU Lei, WANG Shu-rong, QU Yi, et al. Broadband FUV imaging spectrometer: advanced design with a single toroidal uniform-line-space grating［J］. Applied Optics, 2011, 50(22): 4468-4477.

[7] GAT N. Imaging spectroscopy using tunable filters: a review［C］. SPIE, 2000, 4056: 50-64.

[8] NOURI D, LUCAS Y, TREUILLET S. Calibration and test of a hyperspectral imaging prototype for intra-operative surgical assistance［C］. SPIE, 2013, 8676.

[9] POLDER G, VAN DER HEIJDEN G W A M, VAN DER VOET H, et al. Measuring surface distribution of carotenes and chlorophyll in ripening tomatoes using imaging spectrometry［J］. Postharvest Biology and Technology, 2004, 34(2): 117-129.

[10] LAWRENCE K C, PARK B, WINDHAM W R, et al. Calibration of a pushbroom hyperspectral imaging system for agricultural inspection［J］. Transactions of the ASAE, 2003, 46(2): 513-521.

[11] MIN M, LEE W S, BURKS T F, et al. Design of a hyperspectral nitrogen sensing system for orange leaves［J］. Computers and Electronics in Agriculture, 2008, 63(2): 215-226.

[12] WANG Yi-qun, YAN Chang-xiang, JIA Ping. Motion precision measurement of imaging spectrometer′s scanning mirror［J］. Acta Photonica Sinica, 2012, 41(2): 185-189.

[13] WANG Wei-lin, LI Chang-ying, TOLLNER E W, et al. A liquid crystal tunable filter based shortwave infrared spectral imaging system: calibration and characterization［J］. Computers and Electronics in Agriculture, 2012, 80: 135-144.

[14] BEI Ling, DENNIS G I, MILLER H M, et al. Acousto-optic tunable filters: fundamentals and applications as applied to chemical analysis techniques［J］. Progress in Quantum Electronics, 2004, 28(2): 67-87.

[15] JAKA K, MIRAN B, FRANJO P, et al. Specral characterization and calibration of AOTF spectrometers and hyper-spectral imaging systems［J］. Chemometrics and Intelligent Laboratory Systems, 2010, 101(1): 23-29.

[16] MIRAN B, FRANJO P, LIKAR B. Spectral characterization of near-infrared acousto-optic tunable filter (AOTF) hyperspectral imaging systems using standard calibration materials［J］. Applied Spectroscopy, 2011, 65(4): 393-401.

[17] POLDER G, VAN DER HEIJDEN G W A M. Calibration and characterization of spectral imaging system［C］. SPIE, 2001, 4548: 10-17.

[18] GEBHART S C, STOKES D L, TUAN V D, et al. Instrumentation considerations in spectral imaging for tissue demarcation: comparing three methods of spectral resolution［C］. SPIE, 2005, 5694: 41-52.