[1] Ghafouri-Shiraz H, Shalaby H M H. Performance analysis of optical spectral-amplitude-coding CDMA systems Using a Super-Fluorescent Fiber Source. IEEE Photonics Technology Letters, 2001,13(8):887~889
[2] Zhou X, Shalaby H M, Lu C, et al. Code for spectral amplitude coding optical CDMA systems. Electron Lett,2000,36(6):728~729
[3] Huang J F, Hsu D Z. Fiber-grating-based optical CDMA spectral coding with nearly orthogonal M-sequence codes.IEEE Photo Tech Letters, 2000, 12(9): 1252~1254
[4] Shaar A A, Davies P A. Prime sequences:quasi-optimal sequences for or channel code division mul-tiplexing. Electronics Letters, 1983,9(21):888~889
[5] Fathallag H, Rusch L A, Larochelle S. Passive optical fast frequencyhop CDMA communication system. Journal of Lightwave Technology, 1999,13 (17):397~ 405
[6] Yang G C.Variable-weight optical orthogonal codes for CDMA networks with multiple perfor-mance requirements. IEEE Trans on Comm,1996,44(1):47~51
[7] Kwong W C, Zhang J G, Yang G C. 2n-prime-sequence code and its optical CDMA coding architec-ture. Electronics Letters, 1994, 30 (6 ): 509~510
[8] Perrir P A, Prucnal P R. Wavelength-division integration of code-division in fiber-optic system. Int J Diginal Analog Cabled Syst,1988, 1:149~157
[9] Guu C Y, Kwong C. Performance comparison of multiwavelength CDMA and WDMA+CDMA for fiber-optic networks. IEEE Trans on Comm,1997, 45(11): 1426~1436
[10] Chung F R, Salehi J A, Wei V K. Optical orthogonal codes: design, analysis, and application. IEEE Trans Inform Theory, 1989, 35:595~604
[11] Yang G C, Kwong W C. Performance analysis of optical CDMA with prime code. Electron Lett, 1995, 31(7):569~570