[1] KATSAGGELOS A K. Digital image restoration[M]. Springer Publishing Company, Incorporated, 2012: 24-41.
[2] CHAUDHURI S, VELMURUGAN R, RAMESHAN R. Blind deconvolution methods: a review[M]. Springer International Publishing, 2014: 37-60.
[4] MIURA N, BABA N. Extended-object reconstruction with sequential use of the iterative blind deconvolution method[J]. Optics Communications, 1992, 89(5): 375-379.
[5] CAO lei, CHEN Hong-bin,QIU qi, et al.Blind image deconvolution based on power law distribution applied in optoelectronic detection system[J]. Chinese Journal of Lasers, 2015, 42(3): 0308007.
[6] KUNDUR D, HATZINAKOS D. A novel blind deconvolution scheme for image restoration using recursive filtering[J]. IEEE Transactions on Singal Processing, 1998, 46(2): 375-390.
[7] WANG W, NG M K. Convex regularized inverse filtering methods for blind image deconvolution[J]. Signal, Image and Video Processing, 2016, 10(7): 1353-1360.
[8] LIU Jun, HUANG Ting-zhu, SELESNICK I W, et al. Image restoration using total variation with overlapping group sparsity[J]. Information Scineces, 2015, 295: 232-246.
[9] GUO X, MA Y. Generalized tensor total variation minimization for visual data recovery[C]. 2015 IEEE Conference on Computer Vision and Pattern Reognition (CVPR), 2015: 3603-3611.
[10] RENU M R, SUBHASIS C, RAJBABU V. Convergence analysis of a quadratic upper bounded TV regularizer based blind deconvolution[J]. Signal Processing, 2015, 106: 174-183.
[11] CARASSO A S. Direct blind deconvolution[J]. SIAM Journal on Applied Mathematics, 2001, 61(6): 1980-2007.
[12] CARASSO A S. The APEX method in image sharpening and the use of low exponent Lévy stable laws[J]. SIAM Journal on Applied Mathematics, 2003, 63(2): 593-618.
[13] ZHANG J, ZHANG Q. Noniterative blind image restoration based on estimation of a significant class of point spread functions[J]. Optical Engineering, 2007, 46(7): 077005.
[14] XIE Sheng-hua, ZHANG Qi-heng, SU Ding.The improved image restoration algorithmbased on APEX method[J]. Laser & Infrared, 2007, 32(2): 185-188.
[15] LUO Y, FU C. Midfrequency-based real-time blind image restoration via independent component analysis and genetic algorithms[J]. Optical Engineering, 2011, 50(4): 047004.
[16] GE Qi, ZHANG Hong, WANG Ke-dong, et al. Estimation of point spread function for long-exposure atmospheric turbulence-degraded images[J].Infared and Laser Engineering, 2014, 43(4): 1327-1331
[17] DRUMMOND J D, REYNOLDS O R, BUCKMAN M D. The orbit and size of (87) Sylvia′s Romulus from the 2015 apparition[J]. Icarus, 2016, 276: 107-115.
[18] OLIVEIRAJ P, FIGUEIREDOM T, JOS M. Parametric blur Estimation for blind restoration ofnatural images: linear motion and out-of-focus[J]. IEEE Transactions on Image Processing, 2014, 23(1): 466-476
[19] DYAKOVA O, LEE Y J, LONGDEN K D, et al. A higher order visual neuron tuned to the spatial amplitude spectra of natural scenes[J]. Nature Communications, 2015, 6(9): 503-511.
[20] ANDREA D C, MASTRIAS, CODISPOTI M. Early spatial frequency processing of natural images: an ERPstudy[J]. Plos One, 2013, 8(5): e65103.
[21] BALASUBRAMANIAN M, IYENGAR M M, REYNAUD J, et al. A ringing metric to evaluate the quality of images restored using iterative deconvolution algorithms[C]. 18th International Conference on Systems Engineering, 2005: 483-488.
[22] GONZALEZ R C, Woods R E. Digital image processing, 3rd edition [DB].[2008].http: //www.imageprocessingplace.com/root_files_V3/image_databases.htm.