[1] E H ADELSON, J R BERGEN. The plenoptic function and the elements of early vision, 3-20(1991).
[2] L GAO, L V WANG. A review of snapshot multidimensional optical imaging: measuring photon tags in parallel. Physics Reports, 616, 1-37(2016).
[3] P A MITCHELL. Hyperspectral digital imagery collection experiment (HYDICE), 2587, 70-95(1995).
[4] J S PEARLMAN, S MEMBER, P S BARRY et al. Hyperion, a space-based imaging spectrometer. IEEE Transactions on Geoscience and Remote Sensing, 41, 1160-1173(2003).
[5] Bin XIANGLI, Baochang ZHAO, Mingqiu XUE. Spatially modulated imaging interferometry. Acta Optics Sinica, 18, 18-22(1998).
[6] N GAT, S SUBRAMANIAN, S ROSS et al. Thermal infrared imaging spectrometer (TIRIS) status report, 3061, 284-291(1997).
[7] C L BENNETT, M R CARTER, D J FIELDS et al. Imaging Fourier transform spectrometer, 1937, 191-200(1993).
[8] R T KESTER, C WALKER, N HAGEN. A real-time gas cloud imaging camera for fugitive emission detection and monitoring, AW1B.1(2012).
[9] L GAO, R T SMITH, T S TKACZYK. Snapshot hyperspectral retinal camera with the image mapping spectrometer (IMS). Biomedical Optics Express, 3, 48-54(2012).
[10] S E HEADLAND, H R JONES, A S V D’SA et al. Cutting-edge analysis of extracellular microparticles using imagestreamx imaging flow cytometry. Scientific Reports, 4, 5237(2014).
[11] A GORMAN, D W FLETCHER-HOLMES, A R HARVEY. Generalization of the Lyot filter and its application to snapshot spectral imaging. Optics Express, 18, 5602-5608(2010).
[12] Lijuan SU, Zhiliang ZHOU, Yan YUAN et al. A snapshot light field imaging spectrometer. Optik, 126, 877-881(2015).
[13] Tingkui MU, Feng HAN, Donghao BAO et al. Compact snapshot optically replicating and remapping imaging spectrometer (ORRIS) using a focal plane continuous variable filter. Optics Letters, 44, 1281-1284(2019).
[14] E PRIETO, S VIVÈS. A proposal of image slicer designed for integral field spectroscopy with NIRSpec/JSWT. New Astronomy Reviews, 50, 279-284(2006).
[15] J BLAND-HAWTHORN, J BRYANT, G ROBERTSON et al. Hexabundles: imaging fiber arrays for low-light astronomical applications. Optics Express, 19, 2649-2661(2011).
[16] Xun CAO, Hao DU, Xin TONG et al. A prism-mask system for multispectral video acquisition. IEEE Transactions on Pattern Analysis and Machine Intelligence, 33, 2423-2435(2011).
[17] J G DWIGHT, T S TKACZYK. Lenslet array tunable snapshot imaging spectrometer (LATIS) for hyperspectral biological imaging. Optics Express, 8, 1950-1964(2017).
[18] L GAO, R T KESTER, N HAGEN et al. Snapshot image mapping spectrometer (IMS) with high sampling density for hyperspectral microscopy. Optics Express, 18, 14330-14344(2010).
[19] Anqi LIU, Lijuan SU, Yan YUAN et al. Accurate ray tracing model of an imaging system based on image mapper. Optics Express, 28, 2251-2262(2020).
[20] Anqi LIU, Yan YUAN, Lijuan SU et al. Hybrid non-sequential modeling of an image mapping spectrometer. Applied Optics, 61, 5260-5268(2022).
[21] B GEELEN, N TACK, A LAMBRECHTS. A compact snapshot multispectral imager with a monolithically integrated per-pixel filter mosaic, 8974, 89740L(2014).
[22] B K FORD, M R DESCOUR, R M LYNCH. Large-image-format computed tomography imaging spectrometer for fluorescence microscopy. Optics Express, 9, 444-453(2001).
[23] M W KUDENOV, E L DERENIAK. Compact real-time birefringent imaging spectrometer. Optics Express, 20, 17973-17986(2012).
[24] A A WAGADARIKAR, N P PITSIANIS, X SUN et al. Video rate spectral imaging using a coded aperture snapshot spectral imager. Optics Express, 17, 6368-6388(2009).
[25] Xun CAO, Tao YUE, Xing LIN et al. Computational snapshot multispectral cameras: toward dynamic capture of the spectral world. IEEE Signal Processing Magazine, 33, 95-108(2016).
[26] Ziyi MENG, Mu QIAO, Jiawei MA et al. Snapshot Multispectral Endomicroscopy. Optics Letters, 45, 3897-3900(2020).
[27] M W KUDENOV, M E L JUNGWIRTH, E L DERENIAK et al. White-light Sagnac interferometer for snapshot multispectral imaging. Applied Optics, 49, 4067-4076(2010).
[28] D S JEON, S H BAEK, S YI et al. Compact snapshot hyperspectral imaging with diffracted rotation. ACM Transactions on Graphics, 38, 117(2019).
[29] S HEIST, P LUTZKE, I SCHMIDT et al. High-speed three-dimensional shape measurement using GOBO projection. Optics and Lasers in Engineering, 87, 90-96(2016).
[30] S ELGAZZAR, R LISCANO, F BIAIS et al. 3D data acquisition for indoor environment modeling using a compact active range sensor, 586-592(1997).
[31] S FOIX, G ALENYÀ, C TORRAS. Lock-in time-of-flight (ToF) cameras: a survey. IEEE Sensors Journal, 11, 1917-1926(2011).
[32] D SCHARSTEIN, R SZELISKI, R ZABIH. A taxonomy and evaluation of dense two-frame stereo correspondence algorithms, 1-10(2001).
[33] I IHRKE, J RESTREPO, L MIGNARD-DEBISE. Principles of light field imaging: briefly revisiting 25 years of research. IEEE Signal Processing Magazine, 33, 59-69(2016).
[34] M H KIM, H RUSHMEIER, J DORSEY et al. 3D imaging spectroscopy for measuring hyperspectral patterns on solid objects. ACM Transactions on Graphics, 31, 38(2012).
[35] Zhiwei XIONG, Lizhi WANG, Huiqun LI et al. Snapshot hyperspectral light field imaging. 30th IEEE Conference on Computer Vision and Pattern Recognition (CVPR), 6873-6881(2017).
[36] Mingde YAO, Zhiwei XIONG, Lizhi WANG et al. Spectral-depth imaging with deep learning based reconstruction. Optics Express, 27, 38312-38325(2019).
[37] S HEIST, C ZHANG, K REICHWALD et al. 5D hyperspectral imaging: fast and accurate measurement of surface shape and spectral characteristics using structured light. Optics Express, 26, 23366-23379(2018).
[38] Jiamin WU, Bo XIONG, Xing LIN et al. Snapshot hyperspectral volumetric microscopy. Scientific Reports, 6, 24624(2016).
[39] Yang ZHAO, Tao YUE, Linsen CHEN et al. Heterogeneous camera array for multispectral light field imaging. Optics Express, 25, 14008(2017).
[40] Q CUI, J PARK, R THEODORE SMITH et al. Snapshot hyperspectral light field imaging using image mapping spectrometry. Optics Letters, 45, 772-775(2020).
[41] Shuaishuai ZHU, Liang GAO, Yu ZHANG et al. Complete plenoptic imaging using a single detector. Optics Express, 26, 26495-26509(2018).
[42] W FENG, H RUEDA, C FU et al. 3D compressive spectral integral imaging. Optics Express, 24, 24859-24871(2016).
[43] H RUEDA-CHACON, J F FLOREZ-OSPINA, D L LAU et al. Snapshot compressive ToF+spectral imaging via optimized color-coded apertures. IEEE Transactions on Pattern Analysis and Machine Intelligence, 42, 2346-2360(2020).
[44] M MARQUEZ, P MEZA, F ROJAS et al. Snapshot compressive spectral depth imaging from coded aberrations. Optics Express, 29, 8142-8159(2021).
[45] Q CUI, J PARK, Y MA et al. Snapshot hyperspectral light field tomography. Optica, 8, 1552-1558(2021).
[46] S HBAEK, H IKOMA, D S JEON et al. Single-shot hyperspectral-depth imaging with learned diffractive optics, 2651-2660(2021).
[47] Ziyi MENG, Jiawei MA, Xin YUAN. End-to-end low cost compressive spectral imaging with spatial-spectral self-attention, 12368, 187-204(2020).
[48] Yuanhao CAI, Jing LIN, Xiaowan HU et al. Mask-guided spectral-wise transformer for efficient hyperspectral image reconstruction, 17502-17511(2022).
[49] Jing LIN, Yuanhao CAI, Xiaowan HU et al. Coarse-to-fine sparse transformer for hyperspectral image reconstruction. https://arxiv.org/abs/2203.04845v1
[50] X DUN, H IKOMA, G WETZSTEIN et al. Learned rotationally symmetric diffractive achromat for full-spectrum computational imaging. Optica, 7, 913-922(2020).
[51] H ARGUELLO, S PINILLA, Y PENG et al. Shift-variant color-coded diffractive spectral imaging system. Optica, 8, 1424-1434(2021).
[52] Xia HUA, Yujie WANG, Shuming WANG et al. Ultra-compact snapshot spectral light- field imaging. Nature Communications, 13, 1-9(2022).
[53] Chenguang MA, Xun CAO, Xin TONG et al. Acquisition of high spatial and spectral resolution video with a hybrid camera system. International Journal of Computer Vision, 110, 141-155(2014).
[54] Chenguang MA, Xun CAO, Rihui WU et al. Content-adaptive high-resolution hyperspectral video acquisition with a hybrid camera system. Optics Letters, 39, 937-940(2014).
[55] Y MURAKAMI, K NAKAZAKI, M YAMAGUCHI. Hybrid-resolution spectral video system using low-resolution spectral sensor. Optics Express, 22, 20311-20325(2014).
[56] Shuaishuai ZHU, Yu ZHANG, Jie LIN et al. High resolution snapshot imaging spectrometer using a fusion algorithm based on grouping principal component analysis. Optics Express, 24, 24624-24640(2016).
[57] Yu ZHANG, Shuaishuai ZHU, Jie LIN et al. High-quality panchromatic image acquisition method for snapshot hyperspectral imaging Fourier transform spectrometer. Optics Express, 27, 28915-28928(2019).
[58] N AKHTAR, F SHAFAIT, A MIAN. Sparse spatio-spectral representation for hyperspectral image super-resolution, 8695, 63-78(2014).
[59] F PALSSON, J R SVEINSSON, M O ULFARSSON. A new pansharpening algorithm based on total variation. IEEE Geoscience and Remote Sensing Letters, 11, 318-322(2014).
[60] N YOKOYA, T YAIRI, A IWASAKI. Coupled nonnegative matrix factorization unmixing for hyperspectral and multispectral data fusion. IEEE Transactions on Geoscience and Remote Sensing, 50, 528-537(2012).
[61] Qi XIE, Minghao ZHOU, Qian ZHAO et al. Multispectral and hyperspectral image fusion by MS/HS fusion net, 1585-1594(2019).
[62] Qi XIE, Minghao ZHOU, Qian ZHAO et al. MHF-Net: an interpretable deep network for multispectral and hyperspectral image fusion. IEEE Transactions on Pattern Analysis and Machine Intelligence, 44, 1457-1473(2020).
[63] C DONG, C C LOY, K HE et al. Learning a deep convolutional network for image super-resolution, 184-199(2014).
[64] Yuan YUAN, Xiangtao ZHENG, Xiaoqiang LU. Hyperspectral image superresolution by transfer learning. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 10, 1963-1974(2017).
[65] Yunsong LI, Jing HU, Xi ZHAO et al. Hyperspectral image super-resolution using deep convolutional neural network. Neurocomputing, 266, 29-41(2017).
[66] Jing HU, Yunsong LI, Weiying XIE. Hyperspectral image super-resolution by spectral difference learning and spatial error correction. IEEE Geoscience and Remote Sensing Letters, 14, 1825-1829(2017).
[67] Zhan SHI, Chang CHEN, Zhiwei XIONG et al. Deep residual attention network for spectral image super-resolution, 214-229(2018).
[68] Anqi LIU, Xianzi ZENG, Yan YUAN et al. Joint artifact correction and super-resolution of image slicing and mapping system via a convolutional neural network. Optics Express, 29, 7247-7260(2021).