[1] Feng D, Zhao H, Xia S. Amplitude-modulated JTC for improving correlation discrimination.Opt Comm,1991,86(3): 260～264

[2] Cheng F, Andres P, Yu F T S. Intensity compensation fiber for joint transform correlation peak enhancement.App Opt, 1991, 32(23):4357～4364

[3] Javidi B, Wang J. Binary nonlinear joint transform correlation with median and sub-set median thresholding.Appl Opt, 1991,30(8): 967～976

[4] Javidi B, Li J, Fazollahi A H,et al.Binary nonlinear joint transform correlator performance with different thresholding methods under unknown illumination conditions.Appl Opt, 1995,34(5): 886～896

[5] Lu G, Yu F T S. Performance of a phase-only jointtransform correlator: analysis and experimental results.Appl Opt, 1996, 35(17): 3091～3096

[6] Guan J H, Wang Z Q, Liu H L,et al.Phase-shifting technique applied to circular harmonic-based joint transform correlator. Chinese Science Bulleion, 2000, 45(20): 1908～1911

[7] Hester C F, Casasent D. Multivariant technique for multiclass pattern recognition. Appl Opt, 1980, 19(11): 1758～1761

[8] Kumar B V K V. Minimum-variance synthetic discriminant functions. J Opt Soc Am, 1986, A3(10): 1579～1583

[9] Horner J L, Gianino P D. Applying the phase-only filter concept to the synthetic discriminant function correlation filter. Appl Opt, 1985, 24(6): 851～855

[10] Wang Z Q, Gillespie W A, Cartwright C M,et al.Optical pattern recognition using a synthetic discriminant amplitude-compensated matched filter. Appl Opt, 1993, 32(2): 184～189

[11] Gerchberg R W, Saxton W O. A practical algorithm or the determination of phase from image and diffraction plane pictures.Optik, 1972, 35(2): 237～246

[12] Lu G W, Zhang Zh, Wu Sh D, et al.Implementation of a non-zero-order joint-transform correlator by use of phase-shifting techniques. Appl Opt, 1997, 36(2): 470～474