[1] Cowley J M. Diffraction physics[M]. Amsterdam: North Holland Pub., Co.(1975).

[2] Zuo C, Li J J, Sun J S et al. Transport of intensity equation: a tutorial[J]. Optics and Lasers in Engineering, 135, 106187(2020).

[3] Teague M R. Deterministic phase retrieval: a Green's function solution[J]. Journal of Optical Society of America, 73, 1434-1441(1983). http://www.cell.com/servlet/linkout?suffix=e_1_5_1_2_21_2&dbid=16&doi=10.1016/j.bpj.2015.08.046&key=10.1364%2FJOSA.73.001434&cf=

[4] Zhang L, Tang Q J, Deng D N et al. Field-of-view correction for dual-camera dynamic phase imaging based on transport of intensity equation[J]. Chinese Journal of Lasers, 46, 0804005(2019).

[5] Tian X L. Quantitative phase imaging technology based on transport of intensity equation[D]. Wuxi: Jiangnan University(2017).

[6] Cheng H, Xiong B L, Wang J C et al. Phase retrieval based on registration progressive compensation algorithm[J]. Acta Photonica Sinica, 48, 0410002(2019).

[7] Allen L J, Oxley M P. Phase retrieval from series of images obtained by defocus variation[J]. Optics Communications, 199, 65-75(2001). http://www.sciencedirect.com/science/article/pii/S0030401801015565

[8] Woods S C, Greenaway A H. Wave-front sensing by use of a Green's function solution to the intensity transport equation[J]. Journal of Optical Society of America, 20, 508-512(2003).

[9] Xue B D, Zheng S L, Jiang Z G. Phase retrieval using transport of intensity equation solved by full multigrid method[J]. Acta Optica Sinica, 29, 1514-1518(2009).

[10] Lu X Y, Zhao C L, Cai Y J. Research progress on methods and applications for phase reconstruction under partially coherent illumination[J]. Chinese Journal of Lasers, 47, 0500016(2020).

[11] Sun Q C, Hou Y Q, Chen J. Lens distortion correction for improving measurement accuracy of digital image correlation[J]. Optik, 126, 3153-3157(2015).

[12] Mi C K. Modulating the statistical properties of a vector partially coherent beam by a 4f optical system[D]. Suzhou: Soochow University(2019).

[13] Zuo C, Chen Q, Sun J S et al. Non-interferometric phase retrieval and quantitative phase microscopy based on transport of intensity equation: a review[J]. Chinese Journal of Lasers, 43, 0609002(2016).

[14] Zhang J S, Zhang H M, Luo Y T et al. Image registration method based on improved Harris corner detection algorithm[J]. Laser & Infrared, 47, 230-233(2017).

[15] Wang C Y, Chen J B, Chen J S et al. Unmanned aerial vehicle oblique image registration using an ASIFT-based matching method[J]. Journal of Applied Remote Sensing, 12, 025002(2018). http://www.researchgate.net/publication/324456478_Unmanned_aerial_vehicle_oblique_image_registration_using_an_ASIFT-based_matching_method

[16] Vourvoulakis J, Kalomiros J, Lygouras J. FPGA-based architecture of a real-time SIFT matcher and RANSAC algorithm for robotic vision applications[J]. Multimedia Tools and Applications, 77, 9393-9415(2018). http://dl.acm.org/doi/abs/10.1007/s11042-017-5042-x

[17] Robert M H, Linda G S[M]. Computer and robot vision(1992).

[18] Qi J H. Image inpainting method based on image partition and improved Criminisi algorithm[J]. Modern Electronics Technique, 43, 63-66(2020).

[19] Barty A, Nugent K A, Paganin D et al. Quantitative optical phase microscopy[J]. Optics Letters, 23, 817-819(1998).

[20] Zuo C. Research on noninterferometric phase retrieval and quantitative phase microscopy methods based on transport of intensity equation[D]. Nanjing: Nanjing University of Science and Technology(2014).