Strategies for Dense Optical CDMA Communication Systems

Strategies for Dense Optical CDMA Communication Systems

导出

摘要 In this paper, we have formulated a strategy that the limited available codesequences in pure Direct-Sequence (DS) or Frequency-Hopping (FH) system can be reused to realizedense optical CDMA: the strategy of novel hybrid DS/FH system. In which, the case that there are nusers employing the same FH pattern but different DS code patterns is considered. On the conditionthat the impact of channel noises is neglected, the upper bound probability of error is evaluatedbased on the stationary random process theory. The results shout that the hybrid system is suitablefor Dense Optical CDMA (DOCDMA) communication. Moreover, the problems such as the link-impairment,dispersion of group velocity, etc. in the pure (DS or FH) system can be solved effectively. In this paper, we have formulated a strategy that the limited available codesequences in pure Direct-Sequence (DS) or Frequency-Hopping (FH) system can be reused to realizedense optical CDMA: the strategy of novel hybrid DS/FH system. In which, the case that there are nusers employing the same FH pattern but different DS code patterns is considered. On the conditionthat the impact of channel noises is neglected, the upper bound probability of error is evaluatedbased on the stationary random process theory. The results shout that the hybrid system is suitablefor Dense Optical CDMA (DOCDMA) communication. Moreover, the problems such as the link-impairment,dispersion of group velocity, etc. in the pure (DS or FH) system can be solved effectively.

作者 WANGYu-bao LINJin-tong

机构地区 BeijingUniversityofPostsandTelecommunications

出处《The Journal of China Universities of Posts and Telecommunications》 EI CSCD 2005年第1期91-94,共4页 中国邮电高校学报（英文版）

关键词 DOCDMA hybrid (DS/FH) system DS FH stationary random process probabilityof error DOCDMA hybrid (DS/FH) system DS FH stationary random process probabilityof error

分类号 TN929.533 [电子电信—通信与信息系统]

引文网络
相关文献

参考文献1

1WANGYu-Bao GAOYi-Ran MAWen-hua WUJian LINJin-Tong.A Novel Optical Code Division Multiple Access Ring Network System for LAN[J].The Journal of China Universities of Posts and Telecommunications,2004,11(3):5-9. 被引量：1

二级参考文献15

1[1]KEN-ICHI KITAYAMA. Code division multiplexing light-wave networks based upon optical code conversion [J]. IEEE Journal on Selected Areas in Communications, 1998, 16(7): 1309-1319.
2[2]MUCKENHEIM J, IVERSON K, HAMPICKE D. Construction of high-efficient optical CDMA computer Networks: statistical design [A]. Proc IEEE International Conference on Communications (ICC), Vol 3[C]. Piscataway(NJ): IEEE, 1998. 1289-1293.
3[3]TEIXEIRA A L J, NAOYA WADA. All-optical time-wavelength code router for optical CDMA networks [A]. IEEE The 14th Annual Meeting of the IEEE on Laser and Electro-Optics Society (LEOS), Vol 1[C]. Piscataway(NJ): IEEE, 2001.93-94.
4[4]WEI Huang, NIZAM M H M, ANDONOVIC I, et al., Coherent optical CDMA (OCDMA) systems used for high-capacity optical fiber networks─ system description, OTDM com-parison, and OCDMA/WDMA networking[J]. J Light-wave Technology, 2000, 18(6): 765-778.
5[5]PEH CHIONG TEH, PERIKLIS PETROPOULOS, MORTEN IBSEN, 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]. J Light-wave Technology, 2001, 19(9): 1352-1364.
6[6]FATHALLAH H, RUSH LA. Robust optical FFH-CDMA coding in place of frequency and temperature controls [J]. J Light-wave Technology, 1999, 17(8): 1284-1293.
7[7]MENDEZ A J, GAGLIARDI R M, FENG H X C, et al. Strategies for realizing optical CDMA for dense, high-speed, long span, optical network applications [J]. J Light-wave Technology, 2000, 18(12): 1685-1696.
8[8]CHAO Zuo, Wen-hua MA, Hong-tu PU, et al. The impact of group velocity on frequency-hopping optical code division multiple access system [J]. J Light-wave Technology, 2001, 19(10): 1416-1419.
9[9]FATHALLAH H, RUSCH L A, LAROCHELLE S. Passive optical fast frequency-hop CDMA communications system [J]. J Light-wave Technology, 1999, 17(3): 397-405.
10[10]CHAPMAN D A, DAVAIES P A, MONK J. Code-division multiple-access in an optical fiber LAN with amplified bus topology: the SLIM bus [J]. IEEE Trans on Communications, 2002, 50(9): 1405-1408.

1光纤传输及光缆通信[J].电子科技文摘,2002,0(9):66-67.
2Li Ou Wu Jiangxing Lan Julong(National Digital Switching System Engineering & Technology Research Center, Zhengzhou 450002).A NEW DECODER OF SYNCHRONOUS OPTICAL CODE DIVISION MULTIPLE ACCESS SYSTEMS USING SEGMENTED CORRELATION[J].Journal of Electronics(China),2001,18(2):135-139.
3辛雨,余重秀,吴强,张琦,刘德国,陈卓.一种光CDMA频域的二次方一致性码(英文)[J].光子学报,2003,32(11):1352-1354. 被引量：1
4Yang Lieliang,Li Chengshu(Northern Jiaotong University,Beijing 100044).Combinatory　Spread－Spectrum　Multiple－Access　Based　on　Residue　Number　System：System　and　Performance[J].通信学报,1995,16(4):79-88. 被引量：1
5电信交换技术、交换机与交换系统[J].电子科技文摘,2000(4):72-72.
6MBL 116落地箱[J].现代音响技术,2008(11):11-11.
7Wang Yi, Zhao Ming, Zhang Zhongpei & Yao Yan State Key Lab. on Microwave & Digital Communication, Tsinghua University, Beijing 100084, P.R.China.Several Modulation in Direct-Sequence Spectrum-Spread Systems[J].Journal of Systems Engineering and Electronics,2002,13(1):53-58.
8Zeng Yu Liu Xueqian Li Ou(Information and Engineering University,Information and Engineering Institute,Zhengzhou 450002,China).A NEW METHOD OF FREQUENCY-HOPPING(FH) SIGNAL DETECTION[J].Journal of Electronics(China),2011,28(4):468-473. 被引量：4
9金黎慧,龚尚庆,钮月萍,金石琦.Electromagnetically induced transparency and controllable group velocity in a five-level atomic system[J].Chinese Optics Letters,2006,4(5):252-254. 被引量：1
10YANG Yanbo,GAO Jingliang.Upper Bound for Unequal Zig-Zag Network with Small Downstream[J].Wuhan University Journal of Natural Sciences,2014,19(3):206-212.

The Journal of China Universities of Posts and Telecommunications

2005年第1期

浏览历史

内容加载中请稍等...

Strategies for Dense Optical CDMA Communication Systems

参考文献1

二级参考文献15

相关作者

相关机构

相关主题

浏览历史