[1] SONG H Y, ZHANG W Y, LI H F et al. Review of compact computational spectral information acquisition systems[J]. Frontiers of Information Technology & Electronic Engineering, 21(8), 1119-1133(2020).

[2] FU Xiaping. Experimental study on non-destructive detection method of fruit internal quality by visible/near infrared spectroscopy[D](2008).

[3] GREEN R O, EASTWOOD M L, SARTURE C M. Imaging spectroscopy and the airborne visible/infrared imaging spectrometer (AVIRIS)[J]. Remote Sensing of Environment, 65, 227-248(1998).

[4] SHI Yingchao, ZHANG Luming, Chen Fei et al. Progress in spectral imaging technology of digital micromirror devices[J]. Optical Precision Engineering, 31, 3096-3110(2023).

[5] BASEDOW R W, CARMER D C, ANDERSON M E et al. HYDICE system: implementation and performance in imaging spectrometry[J]. SPIE, 2480, 258-267(1995).

[6] FORD B K, DESCOUR M R, LYNCH R M. Large-image-format computed tomography imaging spectrometer for fluorescence microscopy[J]. Optics Express, 9, 444-453(2001).

[7] XIE Na. Research on hyperspectral imaging technology[D](2019).

[8] YUAN Yan, LIU Anqi, SU Lijuan. Development trend analysis and prospect of snapshot spectral imaging technology(invited)[J]. Acta Photonica Sinica, 51, 90-106(2022).

[9] NATHAN H, KUDENOV M W. Review of snapshot spectral imaging technologies[J]. Optical Engineering, 52, 090901(2013).

[10] OIKNINE Y, AUGUST I, STERN A. Multi-aperture snapshot compressive hyperspectral camera[J]. Optics Letters, 43, 5042-5045(2018).

[11] OIKNINE Y, AUGUST I, BLUMBERG D G et al. NIR hyperspectral compressive imager based on a modified Fabry–Perot resonator[J]. Journal of Optics, 20, 044011(2018).

[12] ZHANG X, CUI Z, SHEN Z et al. A low-cost miniature multispectral image sensor and its applications in consumer electronics[C], 1-4(2022).

[13] FENG K, ZHAO Y, CHAN J et al. Mosaic convolution-attention network for demosaicing multispectral filter array images[J]. IEEE Transactions on Computational Imaging, 864-878(2021).

[14] XIONG J, CAI X S, CUI K Y et al. Dynamic brain spectrum acquired by a real-time ultraspectral imaging chip with reconfigurable metasurfaces[J]. Optica, 9, 461-468(2022).

[15] CAI X S, XIONG J, CUI K Y et al. One-shot ultraspectral imaging with reconfigurable metasurfaces[EB/OL]. https://export.arxiv.org

[16] ZHANG Rui. Research on high-precision hyperspectral full-polarization imaging system based on acousto-optic and liquid crystal modulation[D](2017).

[17] LIU Qinghan. Design of front optical system for ultra-wide field imaging spectrometer[D](2016).

[18] CHANG Lingying, WANG Xinyou, QIU Yuehong et al. Design of active zoom pre-optical system based on AOTF imaging spectrometer[J]. Acta Optica Sinica, 43, 176-183(2023).