[1] Li-Guo WANG, Chun-Hui ZHAO. Hyperspectral Image Processing, 283-308(2016).
[2] Xin WANG, Bo YANG, Xue-Zhuan DING et al. The Optical Design of Shortwave Infrared Imaging Spectrometer in Space. Infrared Technology, 31, 687-690(2009).
[3] Qing-Sheng XUE, Guan-Yu LIN, Ke-Fei SONG. Optical Design of Spaceborne Shortwave Infrared Imaging Spectrometer with Wide Field of View. Acta Photonica Sinica, 40, 673-678(2011).
[4] H Saari, I Pellikka, L Pesonen et al. Unmanned Aerial Vehicle (UAV) operated spectral camera system for forest and agriculture applications, 8174, 81740H-1/15(2011).
[5] J Praks, A Kestilä, M Hallikainen et al. Aalto- 1-An experimental nanosatellite for hyperspectral remote sensing, 2011, 4367-4370.
[6] Jian-Yu WANG, Zhi-Ping HE, Rong SHU. Design and applications of spaceborne imaging spectrometer based on acousto-optic tunable filter(AOTF), 7857, 78570N-1/6(2010).
[7] Zhi-Ping HE, Rong SHU, Jian-Yu WANG. Imaging Spectrometer based on AOTF and its prospects in deep-space exploration application, 8196, 819625-1/7(2011).
[8] Ji-Fan LIU, Yan-Hua MA, Lei ZHANG et al. An AOTF hyperspectral imager: The multi-scale remote sensing of Tibetan Plateau. J. Infrared Millim. Waves, 32, 86-90(2013).
[9] Dong-Ying ZHANG, Jin HONG, Wei-Ping TANG et al. Design of Hyperspectral Imaging System Based on LCTF. Spectroscopy and Spectral Analysis, 28, 2455-2458(2008).
[10] Wei WANG, Zhi-Xue SHEN. Optical System Design of LCTF-Based Airborne High Spectral Resolution Camera. Acta Photonica Sinica, 44, 139-143(2015).
[11] Ling-Ying CHANG, Bao-Chang ZHAO, Yue-Hong QIU et al. Optimal scheme of AOTF imaging spectrometer optical system. Journal of Applied Optics, 33, 5-8(2012).
[12] O Aharon, I Abdulhalim. Liquid crystal Lyot tunable filter with extended free spectral range. Optics Express, 17, 11426-11433(2009).
[13] H Saari, V V Aallos, C Holmlund et al. Novel hyperspectral imager for lightweight UAVs, 7668, 766805-1/9(2010).
[14] H Leppinen, A Kestilä, T Tikka et al. The Aalto-1 nanosatellite navigation subsystem: Development results and planned operations, 1-8(2016).
[15] Rui CONG, Yi-Kun WANG, Gang CHEN et al. Suppressing Multi-order Transmission Peaks of Tunable Fabry-Perot Filter. Acta Optica Sinica, 39, 0323003-1/8(2019).
[16] M Xiang, M Y Cai, Y M Wu et al. Experimental study of the free spectral range (FSR) in FPI with a small plate gap. Optics Express, 11, 3147-3152(2003).
[17] Wei-Dong SHEN, Xu LIU, Bi-Qin HUANG et al. The effects of reflection phase shift on the optical properties of a micro-opto-electro-mechanical system Fabry-Perot tunable filter. Journal of Optics A: Pure and Applied Optics, 6, 853-858(2004).
[18] Xue-Hui YIN, Cheng-Fang LI, Xiao-Ping WU et al. Analysis of Reflection Phase Shift′s Effect on MEMSBased Filter′s Full Width of Maximum Height. Acta Photonica Sinica, 35, 352-356(2006).
[19] Jin-Fa TANG, Pei-Fu Gu, Xu LIU et al. Modern optical thin film technology, 17, 26-29, 141(2006).