[1] Chen H G, He X H, Teng Q Z et al. Single image super resolution using local smoothness and nonlocal self-similarity priors[J]. Signal Processing: Image Communication, 43, 68-81(2016).

[2] Oktay O, Bai W J, Lee M et al[M]. Multi-input cardiac image super-resolution using convolutional neural networks, 246-254(2016).

[3] Park S C, Park M K, Kang M G. Super-resolution image reconstruction: a technical overview[J]. IEEE Signal Processing Magazine, 20, 21-36(2003).

[4] Schultz R R, Stevenson R L. Extraction of high-resolution frames from video sequences[J]. IEEE Transactions on Image Processing, 5, 996-1011(1996).

[5] Chang H, Yeung D Y, Xiong Y M. Super-resolution through neighbor embedding. [C]∥Proceedings of the 2004 IEEE Computer Society Conference on Computer Vision and Pattern Recognition(2004).

[6] Irani M, Peleg S. Improving resolution by image registration[J]. CVGIP: Graphical Models and Image Processing, 53, 231-239(1991).

[7] Stark H, Oskoui P. High-resolution image recovery from image-plane arrays, using convex projections[J]. Journal of the Optical Society of America A, 6, 1715-1726(1989).

[8] Chang H, Yeung D Y, Xiong Y M. Super-resolution through neighbor embedding. [C]∥Proceedings of the 2004 IEEE Computer Society Conference on Computer Vision and Pattern Recognition, 275-282(2004).

[9] Yang J C, Wright J, Huang T et al. Image super-resolution as sparse representation of raw image patches. [C]∥2008 IEEE Conference on Computer Vision and Pattern Recognition, 1-8(2008).

[10] Dong C, Loy C C, He K M et al[M]. Learning a deep convolutional network for image super-resolution, 184-199(2014).

[11] Kim J, Lee J K, Lee K M. Accurate image super-resolution using very deep convolutional networks. [C]∥2016 IEEE Conference on Computer Vision and Pattern Recognition (CVPR), 1646-1654(2016).

[12] Yuan K P, Xi Z H. Image super resolution based on depth jumping cascade[J]. Acta Optica Sinica, 39, 0715003(2019).

[13] Dong C, Loy C C, Tang X O. Accelerating the super-resolution convolutional neural network[J]. Computer Vision, 391-407(2016).

[14] Shi W Z, Caballero J, Huszár F et al. Real-time single image and video super-resolution using an efficient sub-pixel convolutional neural network. [C]∥ 2016 IEEE Conference on Computer Vision and Pattern Recognition (CVPR), 1874-1883(2016).

[15] Lai W S, Huang J B, Ahuja N et al. Deep laplacian pyramid networks for fast and accurate super-resolution. [C]∥2017 IEEE Conference on Computer Vision and Pattern Recognition (CVPR), 5835-5843(2017).

[16] Lai W S, Huang J B, Ahuja N et al. Fast and accurate image super-resolution with deep Laplacian pyramid networks[J]. IEEE Transactions on Pattern Analysis and Machine Intelligence, 41, 2599-2613(2019).

[17] Schroff F, Kalenichenko D, Philbin J. FaceNet: a unified embedding for face recognition and clustering. [C]∥2015 IEEE Conference on Computer Vision and Pattern Recognition (CVPR), 815-823(2015).

[18] Wu L, Lü G Q, Xue Z T et al. Super-resolution reconstruction of images based on multi-scale recursive network[J]. Acta Optica Sinica, 39, 0610001(2019).

[19] Kingma D P. -01-30)[2020-01-07]. https: ∥arxiv., org/abs/1412, 6980(2017).

[20] Wang C S. Machine vision based typical defects inspection for curved glass of mobile phone[D]. Guangzhou: South China University of Technology, 42-43(2019).

[21] Zhao H, Gallo O, Frosio I et al. Loss functions for image restoration with neural networks[J]. IEEE Transactions on Computational Imaging, 3, 47-57(2017).

[22] Zhang L, Hu B W, Zhang N et al. Global residual recursive network for image super-resolution[J]. Computer Science, 46, 230-233(2019).

[23] Yu J J. Regularization based reconstruction algorithms for bioluminescence tomography Xi'an:[D]. Xidian University, 55-56(2011).

[24] Yang J C, Wright J, Huang T S et al. Image super-resolution via sparse representation[J]. IEEE Transactions on Image Processing, 19, 2861-2873(2010).

[25] Martin D, Fowlkes C, Tal D et al. A database of human segmented natural images and its application to evaluating segmentation algorithms and measuring ecological statistics[J]. Proceedings of International Conference on Computer Vision, 416-423(2002).

[26] Wang Z, Bovik A C, Sheikh H R et al. Image quality assessment: from error visibility to structural similarity[J]. IEEE Transactions on Image Processing, 13, 600-612(2004).

[27] Ye Y X, Shan J, Bruzzone L et al. Robust registration of multimodal remote sensing images based on structural similarity[J]. IEEE Transactions on Geoscience and Remote Sensing, 55, 2941-2958(2017).