[1] ZHOU Canlin.Bimetallic Bounary Planes’s Crack-tip With Digital Speckle Correlation in Frequency Domain [J]. Acta Photonica Sinica,2000,29(6):532-536.
[2] YUAN Dan,LIU Yi,HU Yuming. Improvement of Two-dimensional Displacement Measurement Based on Fast Fourier Transform [J]. Physics Experimentation,2013,33(4):37-40.
[3] LIU Man,CHENG Chuanfu,SONG Hongsheng,et al. Phase Singularities of Speckle Field Produced by The Scattering From Gaussian Correlation Random Surfaces [J]. Acta Physica Sinica,2009,58(8):5376-5384.
[4] LI Xinzhong,TAI Yuping,NIE Zhaogang. Digital Speckle Correlation Method Based on Phase Vortices [J]. Optical Engineering(S0091-3286),2012,51(7):1-4.
[5] YANG Yuhang,CHEN Yu,LI He,et al. In-plane Micro-displacement Measurement Based on Digital Speckle Correlation Method in Frequency Domain [J]. Infrared and Laser Engineering,2014,43(4):1301-1305.
[6] Salla G R , Shashi P , Ashok K, et al. Higher Order Optical Vortices and Formation of Speckles [J]. Optics Letters(S0146-9592),2014,39(15):4364-4367.
[7] Dainty J C. Laser Speckle and Related Phenomena [M]. Springer- Verlag,1984:86-88.
[8] ZHOU Canlin,QI Dongping. Frequency Domain Digital Speckle Correlation Method and Its Applications [J]. Opto-Electronic Engineering,2000,27(3):65-68.
[9] XU Lin. Peak-sharpening Teachnique Used in The Design of Correlation Filters for Pattern Recognition [J]. Opto-Electronic Engineering,1999,26(3):27-29.
[10] Ashok Kumar,Banerji J,Singh R P. Intensity Correlation Properties of High-order Optical Vortices Passing Through a Rotation Ground-glass Plate [J]. Optics Letters(S0146-9592),2010,35(22):3841-3843.