[1] WEAVER C S,GOODMAN J W. A technique for optically convolving two functions[J]. Appl.Opt., 1966, 5(2): 1248-1249.
[2] WANG Y R,CAI L ZH,WANG H,et al. Moving target recognition and tracking with photorefractive joint transform correlator[J]. SPIE,1996, 2896: 189-197.
[3] ZHANG SH Q, KARIM A. Cellular neural network implementation using a phase-only joint transform correlator[J]. Opt. Commun. , 1999, 162(1): 31-36.
[4] NOMURA T,JAVIDI B. Optical encryption using a joint transform correlator architecture[J].Opt.Eng., 2000, 39(8) :2031-2035.
[5] ABOOKASIS D,ARAZI O,ROSEN J,et al. Security optical systems based on a joint transform correlator with significant output images[J]. Opt. Eng. , 2001, 48(8): 1584-1589.
[7] FENG L, MASHHIDE I,TOYOHIKO Y. Adaptive binary joint transform correlator for image recognition[J]. Appl. Opt. , 2002, 41(35): 7416-7420.
[8] FIELDING K H, HORNER J L. 1-f joint transform correlator[J]. Opt. Eng. , 1990, 29(9):1081-1087.
[9] JAVIDI B, HORNER J L. Single SLM joint transform correlator[J]. Appl. Opt. , 1989, 28(5):1027-1032.
[10] GIANINO P D,WOODS C L. Effects of spatial light modulator opaque dead zones on optical correlation[J]. Appl. Opt. ,1992, 31(20): 4025-4032.
[11] GIANINO P D,WOODS C L. General treatment of spatial light modulator dead-zone effects on optical correlation. Ⅱ. Mathematical analysis[J]. Appl. Opt. , 1993, 32(32): 6536-6541.
[12] DAVIS J A,BUNCH R M. Effect of sampling and binarization in the output of the joint Fourier transform correlator[J]. Opt. Eng. ,1990, 29(9): 1095-1100.