[1] M.J. Khan, H.S. Khan, A. Yousaf, K. Khurshid, A. Abbas. Modern trends in hyperspectral image analysis: A review. IEEE Access, 6, 14118(2018).

[2] F. Hilton, R. Armante, T. August, C. Barnet, A. Bouchard, C. Camy-Peyret, V. Capelle, L. Clarisse, C. Clerbaux, P.F. Coheur, A. Collard. Hyperspectral earth observation from IASI: Five years of accomplishments. Bull. Am. Meteorol. Soc., 93, 347(2012).

[3] O. Carrasco, R.B. Gomez, A. Chainani, W.E. Roper. Hyperspectral imaging applied to medical diagnoses and food safety. Faust N.L., Roper W.E. (eds), Geo-spatial and temporal image and data exploitation III(2003).

[4] M.A. Calin, S.V. Parasca, D. Savastru, D. Manea. Hyperspectral imaging in the medical field: Present and future. Appl. Spectrosc. Rev., 49, 435(2013).

[5] A. Picon, O. Ghita, P.M. Iriondo, A. Bereciartua, P.F. Whelan. Automation of waste recycling using hyperspectral image analysis. 2010 IEEE 15th Conference on Emerging Technologies & Factory Automation (ETFA 2010)(2010).

[6] Y.Z. Feng, D.W. Sun. Application of hyperspectral imaging in food safety inspection and control: A review. Crit. Rev. Food Sci. Nutr., 52, 1039(2012).

[7] J. Behmann, K. Acebron, D. Emin, S. Bennertz, S. Matsubara, S. Thomas, D. Bohnenkamp, M. Kuska, J. Jussila, H. Salo, A.K. Mahlein. Specim IQ: Evaluation of a new, miniaturized handheld hyperspectral camera and its application for plant phenotyping and disease detection. Sensors, 18, 441(2018).

[8] P. Levin, E. Ashkenazy, A. Raz, M. Hershcovitz, S. Bouwstra, D. Mendlovic, S. Krylov. A wafer level packaged fully integrated hyperspectral Fabry-Perot filter with extended optical range. 2019 IEEE 32nd International Conference on Micro Electro Mechanical Systems (MEMS)(2019).

[9] B. Geelen, N. Tack, A. Lambrechts. A compact snapshot multispectral imager with a monolithically integrated per-pixel filter mosaic. von Freymann G., Schoenfeld W.V., Rumpf R.C. (eds), Advanced fabrication technologies for micro/nano optics and photonics VII(2014).

[10] M. Hubold, J. Karl, R. Leitel, N. Danz, R. Brüning. Concept, manufacturing and challenges of ultra-compact snapshot multi-spectral multi-aperture imaging systems. EPJ Web Conf., 266, 03013(2022).

[11] N. Hagen, E.L. Dereniak, D.T. Sass. Fourier methods of improving reconstruction speed for CTIS imaging pectrometers. SPIE Proc., 6661, 666103-1-666103-11(2007).

[12] M.J. Ahlebæk, M.S. Peters, W.C. Huang, M.T. Frandsen, R.L. Eriksen, B. Jørgensen. The hybrid approach – convolutional neural networks and expectation maximization algorithm – for tomographic reconstruction of hyperspectral images. J. Spectr. Imaging, 12(2022).

[13] W.C. Huang, M.S. Peters, M.J. Ahlebaek, M.T. Frandsen, R.L. Eriksen, B. Jørgensen. The application of convolutional neural networks for tomographic reconstruction of hyperspectral images. Displays, 74, 102218(2021).

[14] M. Zimmermann, S. Amann, M. Mel, T. Haist, A. Gatto. Deep learning-based hyperspectral image reconstruction from emulated and real computed tomography imaging spectrometer data. Opt. Eng., 61, 053103-1-053103-11(2022).

[15] M. Mel, A. Gatto, P. Zanuttigh. Joint reconstruction and super resolution of hyper-spectral CTIS images. 33rd British Machine Vision Conference 2022, BMVC 2022(2022).

[16] F. Narea-Jiménez, J. Castro-Ramos, J.J. Sánchez-Escobar, A. Muñoz-Morales. Assessment of a computed tomography imaging spectrometer using an optimized expectation-maximization algorithm. Appl. Opt., 61, 6076(2022).

[17] M.S. Peters, R.L. Eriksen, B. Jørgensen. High-resolution snapshot hyperspectral computed tomography imaging spectrometer: Real-world applications. Georges M.P., Popescu G., Verrier N. (eds), Unconventional optical imaging III(2022).

[18] R. Habel. 48–1: Invited paper: Spectral sensing with computed tomography imaging spectrometry. SID Symp. Digest Tech. Papers, 48, 716(2017).

[19] J.E. Harvey, R.N. Pfisterer. Understanding diffraction grating behavior: Including conical diffraction and rayleigh anomalies from transmission gratings. Opt. Eng., 58, 087105-1-087105-21(2019).

[20] M.A. Seldowitz, J.P. Allebach, D.W. Sweeney. Synthesis of digital holograms by direct binary search. Appl. Opt., 26, 2788(1987).

[21] T. Okamoto, I. Yamaguchi. Simultaneous acquisition of spectral image information. Opt. Lett., 16, 1277(1991).

[22] C.E. Volin, M.R. Descour, E.L. Dereniak. Design of broadband-optimized computer-generated hologram dispersers for the computed-tomography imaging spectrometer. Descour M.R., Shen S.S. (eds), SPIE Proceedings(2002).