[1] Wang Ying. Study of spectral imaging system based on filter [D]. Changchun: University of Chinese Academy of Sciences (Changchun Institute of Optics, Fine Mechanics Physics, Chinese Academy of Sciences), 2015. (in Chinese)

[2] R G Sellar, G D Boreman. Classification of imaging spectrometers for remote sensing applications. Optical Engineering, 44, 013602(2005).

[3] Xinquan Wang, Min Huang, Xiaohui Gao, et al. Portable multispectral imager based on LCTF. Acta Photonica Sinica, 39, 71-75(2010).

[4] Congfeng Cao, Junyong Fang, Dong Zhao. Development of UAV-borne multispectral camera based on narrow bandwidth filter array. Optical Technique, 44, 51-55(2018).

[5] Holmes R, U Grözinger, Krause O, et al. A filter wheel mechanism f the Euclid nearinfrared imaging photometer [C]SPIE, 2017, 7739: 856941.

[6] Yinnian Liu. Development of hyperspectral imaging remote sensing technology. National Remote Sensing Bulletin, 25, 439-459(2021).

[7] Huijie Zhao, Pengwei Zhou, Ying Zhang, et al. Acousto-optic tunable filter based spectral imaging technology. Infrared and Laser Engineering, 38, 189-193(2009).

[8] Zedong Gao, Qun Hao, Yu Liu, et al. Hyperspectral imaging and application technology development. Metrology & Measurement Technology, 39, 24-34(2019).

[9] Jianyu Wang, Zhiping He, Rui Xu. Application of imaging spectrum technology based on AOTF in deep-space exploration. Infrared, 34, 1-9(2013).

[10] Yang Guowei. Research on narrow passb tunable filters wk in broad spectral range [D]. Hangzhou: Zhejiang University, 2010. (in Chinese)

[11] Puschell J J , Huang A H , Woolf H M . GWIS: Geostationary wedgefilter imagersounder[C]SPIE, 1999, 3756: 223232.

[12] Li Hongbo. Study of imaging hyperspectral technique based on linear variable filter [D]. Xi’an : University of Chinese Academy of Sciences (Xi’an Institute of Optics & Precision Mechanics, Chinese Academy of Sciences), 2018. (in Chinese)

[13] Yuan Jingze. Research on noninvasive measurement of human hemoglobin by near infrared spectroscopy [D]. Changchun: University of Chinese Academy of Sciences (Changchun Institute of Optics, Fine Mechanics Physics, Chinese Academy of Sciences), 2017. (in Chinese)

[14] Krasilnikova A , Piegari A , Dami M , et al. Spatially resolved spectroscopy f nonunifm thin film coatings: comparison of two dedicated setups[C]SPIE, 2005, 5965: 573580.

[15] Peng Chen, Luwen Luo, Bin Sheng, et al. Study on fabrication method of linear variable filter. Optical Instruments, 38, 308-312(2016).

[16] Yu Xinyang. Development application of a hheld nearinfrared spectrometer based on a linear variable filter f measuring the internal quality of fruit [D]. Changchun: University of Chinese Academy of Sciences (Changchun Institute of Optics, Fine Mechanics Physics, Chinese Academy of Sciences), 2016. (in Chinese)

[17] Lin Z, Anthon E W, Harrison J C, et al. Miniature spectrometer based on linear variable interference filters[C]SPIE, 1999, 3855: 4250.

[18] A Kumar, A R Chowdhury. Hyper-spectral imager in visible and near-infrared band for lunar compositional mapping. Journal of Earth System Science, 114, 721-724(2005).

[19] Jian Zhang, Jinsong Gao, Yudong Li. Linear variable filter with high dispersion coefficient. Optics and Precision Engineering, 23, 1221-1226(2015).

[20] Soukup M, Gailis J, Fantin D, et al. Hyperscout: Onboard processing of hyperspectral imaging data on a nanosatellite[C] Small Satellites, System & Services Symposium (4S), 2016.

[21] K Mahmoud, S Park, D H Lee. Development of a new linearly variable edge filter (LVEF)-based compact slit-less mini-spectrometer. Journal of Physics Conference Series, 972, 012026(2018).

[22] Song S, Gibson D, Ahmadzadeh S, et al. Lowcost hyperspectral imaging system using a linear variable bpass filter f agritech applications [J]. Applied Optics, 2020, 59(5): A167A175.

[23] Xinghao Fan, Chunyu Liu, Guang Jin, et al. Small and high-resolution spaceborne hyperspectral imaging spectrometer. Optics and Precision Engineering, 29, 463-473(2021).

[24] X Fan, C Liu, S Liu, et al. The instrument design of lightweight and large field of view high-resolution hyperspectral camera. Sensors, 21, 2276(2021).

[25] Shaofan Tang, Zhijun Lu, Weigang Wang, et al. Brief description of space hyperspectral imager (Invited). Infrared and Laser Engineering, 48, 0303003(2019).

[26] Yongqiang Zhao, Xinyu Liu, Chaolong Tang. Progress in speccc filter arrays. Laser & Optoelectronics Progress, 57, 192301(2020).

[27] Eichenholz J M, Bart N, Juang Y , et al. Realtime megapixel multispectral bioimaging [C]SPIE, 2010, 7568: 75681L.

[28] Geelen B, Tack N, Lambrechts A. A compact snapshot multispectral imager with a monolithically integrated perpixel filter mosaic [C]SPIE, 2014, 8974: 89740L.

[29] D Yi, Kong L, Sprigle S, et al. Detecting early stage pressure ulcer on dark skin using multispectral imager [C]SPIE, 2010, 7560: 75600U.

[30] Yi D, Awwal A, Iftekharuddin K M, et al. Novel instrumentation of multispectral imaging technology f detecting tissue abnmity [C]SPIE, 2012, 8498: 84980J.

[31] Y Xie, C Liu, S Liu, et al. Snapshot imaging spectrometer based on pixel-level filter array (PFA). Sensors, 21, 2289(2021).

[32] J Zhang, X Zhu, J Bao. Solver-informed neural networks for spectrum reconstruction of colloidal quantum dot spectrometers. Optics Express, 28, 33656-33672(2020).

[33] J Bao, M G Bawendi. A colloidal quantum dot spectrometer. Science Foundation in China, 523, 67-70(2015).

[34] H Li, L Bian, K Gu, et al. A near‐infrared miniature quantum dot spectrometer. Advanced Optical Materials, 9, 2100376(2021).