Browse > Article

Performance Analysis and the Novel Optical Decoder Scheme for Optical CDMA System  

강태구 (중앙대학교 전자공학과 광전자 및 광통신 연구실)
윤영설 (중앙대학교 전자공학과 광전자 및 광통신 연구실)
최영완 (중앙대학교 전자공학과 광전자 및 광통신 연구실)
Publication Information
The Journal of Korean Institute of Communications and Information Sciences / v.27, no.7C, 2002 , pp. 712-722 More about this Journal
Abstract
We have investigated a novel optical decoder for a fiber-optic code division multiple access(CDMA) communication systems. The conventional optical encoder and decoder have the advantage of simple structure. However the number of users in the system is limited by the auto- and cross-correlation properties generated in decoding process. In previous studies, to improve the system performance, although they used an optical code that minimize the sidelobe and cross-correlation, could not yet find a novel methods for performance improvement in fiber-optic CDMA system. Thus, it is necessary to investigate the novel optical decode in order to improve the performance of system. In this paper, we schematize the AND gate logic element(AGLE) composed with 1$\times$2 or 1$\times$3 coupler and the optical thyristor and propose the novel optical decoder using K(weight) AGLE. The optical thyristor only passes the overlapped signal and clips other signals. Such a novel concept means that the optical thyristor can operate as a hard-limiter. We analyze the fiber-optic CDMA system using the novel optical decoder with simulation and is found that the novel optical decoder using the AGLE and optical thyristor excludes the sidelobe and cross-correlation intensity between any two sequences.
Keywords
Citations & Related Records
연도 인용수 순위
  • Reference
1 Wing C .Kwong, Philippe A. Perrier and Paul R. Prucnal, 'Performance Comparison of Asynchronous and Synchronous Code-Division Multipte-Access Techniques for Fiber-Optic Locat Area Networks', IEEE Transactions on Communications, Vo1.39, pp. 1625-1634, Nov. 1991   DOI   ScienceOn
2 Jotn E. Midwinter, 'Photonics in Switching', Academic Press, Inc., 1993
3 J. A. Salehi, 'Code division multiple-access techniquUs in optical fiber networks-Part I: Fundamental principtes ', IEEE Trans. Commun., vo1,37, PP.824-833, Aug. 1989   DOI   ScienceOn
4 F. R. K. Chung, J. A. Salehi, and V. K. Wei, 'Optical orthogonal codes: Design, analysis, and apptication', IEEE Trans. Inform. Theory, vo1.37, May 1989
5 H. M. Kwon, 'Opticat Orthogonal Code Division Multipte Access System part II: Multibits/sequence Period OOCDMA', ICC.91, pp.618-621
6 Jawad A. Salehi, 'Opticat CDMA via Temporal Code', IEEE Trans. Conunun., Vo1.40, No.7,pp.1162-1170, July 1992   DOI   ScienceOn
7 J. A. Salehi, 'Emerging Opticat Code Division Multiple Access Communication System ', IEEE Network, pp.31-39, March 1989
8 E. Marom, 'Optical delay line matched fitters', IEEE Trans. Circuits Syst., vol. CAS-25,pp-360-364, June 1978
9 Alex W. Lam and Awais M. Hussain, 'Perform-ance Anatysis of Direct-detection Optical CDMA Communication System with Avalanche Photodiodesl, IEEE Transactions on Com-mu-nications, Vo1.40, pp.810-819, April 1992   DOI
10 T. J. Healy, 'Coding and decoding for Code Division Multiple wser communication system' IEEE Trans. Commun., vol. C0M-33, pp.310-316, 1985