[1] HRUSKA R, MITCHELL J, ANDERSON M, et al. Radiometric and geometric analysis of hyperspectral imagery acquired from an unmanned aerial vehicle[J]. Remote Sensing, 2012, 4(9): 2736-2752.
[2] LUCIEER A, MALENOVSKY Z, VENESS T, et al. Hyper UAS—Imaging spectroscopy from a multirotor unmanned aircraft system[J]. Journal of Field Robotics, 2014, 31(4): 571-590.
[3] HILL S, CLEMENS P. Miniaturization of sub-meter resolution hyperspectral imagers on unmanned aerial systems[C]. SPIE Sensing Technology+ Applications. International Society for Optics and Photonics, 2014: 91040A.
[4] WU Zhen-zhou. Compact Offner imaging spectrometer and spectral data processing[D].Hefei: University of Science and Technology of China,2012.
[5] LI Chuan-rong. An UAV remote sensing playload system[J]. China Science and Technology Achievements, 2012,10:10-11.
[6] YUAN Yuan, HU Bo, WU Xing-hou, et al. Remote sensing estimation of chlorophyll content in different growth periods of summer corn based on vegetation index[J].Chinese Agricultural Science Bulletin,2015(15):254-259.
[7] SUN Wei-wei, LIU Chun, LI Wei-yu. Sparse representation classification on hyperspectral imagery based-multiple measurement vector[J].Journal of Tongji University (Natural Science),2016, 44(3):454-461.
[8] LIN Tao, YU Hai-yan, YING Yi-bin. Review of progress in application visible/near-Infrared spectroscopy in liquid food detection[J].Spectroscopy and Spectral Analysis,2008, 28(2):285-290.
[15] DAI Jian-ning. Imaging theory and optimization design of fish eye lens[D].Changsha: National University of Defense Technology,1999.
[16] REN Zhong, LIU Guo-dong, HUANG Zhen. A spectrometer splitting-light system based on volume phase holographic transmission grating[J].Chinese Journal of Lasers,2015,42(6):245-251.
[17] Mauri A. Hyperspectral prism-grating-prism imaging spectrograph[D].Finland:VTT Electronics,2001:43-44.
[18] LAIKIN M. Lens design[M].China Machine Pess,2009:90-95.