[1] Stock A, Sargent E H. The role of optical CDMA in access networks[J]. IEEE Commun. Mag., 2002, 40(9): 83~87
[2] Li Chuanqi, Sun Xiaohan et al.. Analysis of the net-structure and key-apparatus of fiber-optic networks[J]. Chinese J. Quantum Electronics, 2005, 22(3): 326~333
[3] Dong Haifeng. New development of OCDMA communication technology[J]. Photon Technology, 2003, (1): 52~57
[4] Yin Xiaoli, Wang Yu, Lin Shu et al.. OCDMA encoder/decoder based on fiber Bragg grating[J]. Optical Communication Technology, 2008, 29(3): 29~31
[5] Jackson K P, Newton S A, Moslehi B et al.. Optical fiber delay line signal processing[J]. IEEE Trans. Microwave Theory Technology, 1985, MTT33: 193~210
[6] Erdogan T. Fiber grating spectra[J]. J. Lightwave Technol.,1997, 15(8): 1277~1294
[7] Djordjevic I B, Vasic B. Novel combinatorial constructions of optical orthogonal codes for incoherent optical CDMA systems[J]. Lightwave Technology, 2003, 21(9): 1869~1875
[8] Set S Y, Dabarsyah B, Goh C S et al.. A widely tunable fiber bragg grating with a wavelength tenability over 40 nm[C]. OFC 2001,2001,1-MC4_1~MC4_3
[9] Taro Hamanaka, Xu Wang, Naoya Wada et al.. Ten-user truly asynchronous gigabit OCDMA transmission experiment with a 511-chip SSFBG en/decoder[J]. J. Lightwave Technol., 2006, 24(1): 95~102
[10] Zhang Z W, Tian C, Petropoulos P et al.. Distributed-phase OCDMA encoder/decoders based on fiber Bragg gratings[J]. IEEE Photon. Technol. Lett., 2007, 19(8): 574~576
[11] Wang X, Kataoka N, Wada N et al.. Flexible 10 Gb/s, 8-user DPSK-OCDMA system with 16×16 ports encoder and 16 level phase-shifted SSFBG decoders[C]. OFC/NFOEC ′08,USA, 2008
[12] The P C, Petropoulos P, Ibsen M et al.. A comparative study of the performance of seven-and 63-chip optical code-division multiple-access encoders and decoders based on superstructured fiber Bragg gratings[J]. Lightwave Technol., 2001, 19(9): 1352~1365