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基于超结构光纤光栅的混沌序列OCDMA系统 被引量:2

Chaotic OCDMA system based on superstructure fiber Bragg grating
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摘要 提出了一种双极性编解码的光码多分址(OCDMA)系统,采用混沌序列作地址码,并使用超结构光纤布拉格光栅(SSFBG)作编/解码器。三阶Chebyshev映射能够产生具有良好相关性且适用于异步CDMA系统的双极性混沌序列,通过对三阶Chebyshev映射赋予一定初值,并进行反复迭代,得到一定长度的双极性混沌序列。根据地址码的特征,通过控制FBG的折射率分布形成SSFBG,利用SSFBG产生相应的双极性混沌序列作OCDMA系统的编/解码器。对系统性能进行了定量分析,在完全异步的情况下,推导了信噪比(SNR)与误码率(BER)的表达式。仿真分析了系统在不同码长下的BER随接入用户数的变化,并和使用Gold序列的情况进行了比较。结果表明,随着码长的增加,在接入用户数一定的情况下,系统具有较低的BER;由于混沌序列良好的自互相关性,相应的混沌序列OCDMA系统与使用Gold序列的系统相比具有较低的BER,并可以容纳更多的用户数。 This paper presents a bipolar en/decoding optical code division multiple access (OCDMA) sys- tem based on chaotic sequences, whose en/decoder is superstructure fiber Bragg grating (SSFBG). The three-order Chebyshev map can generate bipolar chaotic sequences which are appropriate for asyn- chronous CDMA system. With an initial condition and repeating application of the three-order Chebyshev map,chaotic sequences with a certain length can be obtained. According to the characteristics of address code and through control of refractive index distribution of fiber grating, the SSFBG can be fabricated which can generate bipolar chaotic sequences,so SSFBG can be used as the en/decoder of the OCDMA system. The performance of this system is tested by the quantitative analysis. In the case of asynchroni- zation, the formulas of SNR and BER are derived and the curves of BER versus the number of simulta- neous transmissions are simulated. Our numerical simulations show that with the increase of code length,the system has a lower BER with identical number of users, and the system based on chaotic spreading sequences performs better than that using Gold sequences.
出处 《光电子.激光》 EI CAS CSCD 北大核心 2014年第5期876-880,共5页 Journal of Optoelectronics·Laser
基金 国家自然科学基金(51244003) 河南省教育厅科学技术研究重点(1213510012)资助项目
关键词 光纤通信 光码多分址(OCDMA) 双极性混沌序列 超结构光纤布拉格光栅(SSFBG) optical communication optical code division multiple access (OCDMA) bipolar chaotic se-quences superstructure fiber Bragg grating (SSFBC-)
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参考文献20

  • 1努尔买买提,王蕾,范修宏,张尚剑,刘永.基于光时分复用的电光模数转换[J].光电子.激光,2012,23(7):1263-1267. 被引量:3
  • 2刘焕淋,方强,王杨杨,黄胜,向劲松.WDM网状网络中一种动态多播自适应业务疏导算法[J].光电子.激光,2013,24(1):69-74. 被引量:8
  • 3姚琼波,刘逢清,冯翰林.WDM-PON中基于AWG的新型OVPN研究[J].光电子.激光,2012,23(3):501-505. 被引量:2
  • 4Seleem H, Bentrcia A, Fathallah H. A projected parallel interference cancellation for asynchronous upstream OC- DMA-PON[J]. Communications Letters, 2012, 16 ( 11 ) : 1721-1724.
  • 5Idris S K, Osadola T B, Glesk I. OCDMA receiver with built-in all-optical clock recovery[J]. Electronics Letters, 2013,49(2) : 143-144.
  • 6Shalaby H M H. Performance analysis of SAC-OCDMA systems adopting overlapping PPM schemes[J]. Journal of Lightwave Technology,2013,31(12), 1856-1866.
  • 7Chung F R K, Salehi J A, Wei V K. Optical orthogonal codes:design, analysis and applications [J]. IEEE Trans. Inform. Theory., 1989,35(3) : 595-604.
  • 8Chung H, Kumar P V. Optical orthogonal codes-new bounds and optimal construction[J]. IEEE Trans. Inform. Theory. , 1990,36(4) : 866-873.
  • 9Kwong W C, Perrier P A, Prucnal P R. Performance com- parison of asynchronous and synchronous code division multiple access techniques for fiber optic local area net- works[J]. IEEE Trans. Commun., 1991,39 (11): 1625- 1634.
  • 10Benedetto S,OImo G. Analysis of an optical code division multiple access scheme employing Gold sequences[J]. lEE Proceedings I., 1993,140(3) : 211-219.

二级参考文献43

  • 1薛余网,陈景韶.光纤码分多址技术研究[J].上海交通大学学报,1996,30(11):153-158. 被引量:6
  • 2廖露华,温海波,王晟,李乐民.WDM疏导网络中一种新的多播业务路由算法[J].光电子.激光,2007,18(2):200-203. 被引量:10
  • 3LIN Ru-jian.Next generation PON in emerging networks[A].Proc.of OFC/NFOEC[C].2008,1-3.
  • 4Lee C H,Sorin W,Kim V.Fiber to the home using a PONinfrastructure[J].Lightwave Technology,2006,24(12):4568-4583.
  • 5Kazovsky L G,Shaw W,Gutierrez D,et al.Next-genera-tion optical access networks[J].Lightwave Technology,2007,25(11):3428-3442.
  • 6Effenberger F,Clearly D,Haran O,et al.An introduction toPON technologies[J].IEEE Communication Magazine,2007,45(3):17-25.
  • 7Park S J,Lee C H,Jeong K T,et al.Fiber-to-the-homeservices based on wavelength-division-multiplexing pas-sive optical network[J].Lightwave Technology,2004,22(11):2582-2591.
  • 8SU Yi-kai.All-optical virtual-private-network in accessnetworks[A].Proc.of 20th Annual Meeting of the IEEELasers and Electro-Optics Society(LEOS)[C].2007,802-803.
  • 9SU Yi-kai,HU Pei-gang,HU Wei-sheng,et al.A packet-switched waveband-selective PON enabling optical Inter-networking among ONUs[A].Proc.of ECOC[C].2005,3:691-692.
  • 10Jayasinghe T,Chae C J,Tucker R S,et al.Wavelengthswitchable ONU transmitter using a self-seeded RSOA forreconfigurable optical VPN over WDM PON[A].Proc.ofOECC/ACOFT[C].2008,1-2.

共引文献9

同被引文献26

  • 1张胜海,沈柯.Synchronization of chaotic erbium-doped fibre lasers and its application in secure communication[J].Chinese Physics B,2004,13(8):1215-1220. 被引量:7
  • 2张胜海,杨华,钱兴中.一种控制掺铒光纤激光器超混沌的方法——非线性延时反馈参数调制法[J].物理学报,2004,53(11):3706-3709. 被引量:19
  • 3Sanchez F,LeFlohic M,Stephan G M,et al.Quasi-periodic route t o chaos in erbium-doped fiber laser[J].IEEE J.Quant.Electron.,1995,31(3):481-488.
  • 4Luo L G,Tee T J,Chu P L.Chaotic behavior in erbium-doped fiber -ring lasers[J].Opt.Soc.Am.B,1998,15(3):972-978.
  • 5Wang R, Shen K.Synchronization of chaotic erbium-dop-ed fiber du al-ring lasers by using the method of another chaotic system to drive them[J].Phys.Rev.E,2001,65,016207.
  • 6Zhou B B,Roy R.Isochronal synchrony and bidirectional communica tion with delay-coupled nonlinear oscillators[J].Phys.Rev.E.,2007,75(2):026205-5.
  • 7Kim M Y,Roy R,Aron J L,et al.Scaling behavior of laser populat ion dynamics with time-delayed coupling:theory and experiment[J].Phys.Rev.Lett.,2007,94(8):088101-4.
  • 8Franz A L,Roy R,Shaw B L,et al.Changing dynamical complexity w ith time delay in coupled fiber laser oscillators[J].Phys.Rev.Lett.,2007,99(5):053905-4.
  • 9Martin J C.Bidirectional coupling of two erbium -doped fibre ring lasers subject to sinewave pump modulation[J].Appl.Phys.B:Lasers and Optics,2011,102(3):579-588.
  • 10Jiang N,Pan W,Yan L S,et al.Multiaccess optical chaos communication using mutually coupled semiconductor lasers subjected to indentical external injections[J].IEEE J.Pho ton.Technol.Lett.,2010,22(10):676-678.

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