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OCDMA系统中新型正交码的设计及性能研究 被引量:9

Design and performance study on novel optical orthogonal codes in OCDMA systems
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摘要 为了得到性能较为良好的正交码,采用没有重复数字的全间隔集,进行了地址码的设计和系统仿真验证,设计出的正交码具有理想的相关性和灵活的码字容量。分析整个系统,在考虑各种噪声和多址干扰的影响下,推导出正交码的误比特率公式。自行设计并搭建了采用光纤延时线作为编解码器的异步光码多分址系统。结果表明,该正交码能够适应更多用户的需求,通过误比特率公式计算和系统仿真得到的结果都较为理想,此研究对需要大容量的光码多分址系统的进一步发展具有一定的帮助。 In order to get the optical orthogonal codes( OOC) with good performance,all-interval-set with no duplicate number was used. After design and system simulation,OOC had ideal correlation and flexible code capacity. The formula of bit error rate( BER) was derived considering all kinds of noise and multi-user interference. Asynchronous optical code division multiple access( OCDMA) system was designed and constructed with fiber optic delay lines as encoders and decoders. The result shows that the OOC can adapt to the demands of more number of users. The consequence is satisfactory both from the calculation of BER formula and from system simulation. The research is helpful for further development of OCDMA systems with high capacity.
作者 杨梦婕 李传起 陆叶 罗德俊 张东闯 孔一卜
机构地区 广西师范大学电子工程学院
出处 《激光技术》 CAS CSCD 北大核心 2015年第4期576-580,共5页 Laser Technology
基金 广西省自然科学基金资助项目(20101MS018) 桂林市科学技术发展基金资助项目(20120104-18)
关键词 光通信 光码分多址 光正交码 光纤延时线 optical communication optical code division multiple access(OCDMA) optical orthogonal code(OOC) fiber optic delay line
分类号 TN929.11 [电子电信—通信与信息系统]
  • 相关文献

参考文献14

  • 1LI Ch Q, LI X B. OCDMA system in optical communication [ M ]. Beijing:Science Press, 2008:87( in Chinese).
  • 2WANG X M, CHANG Y X, FENG T. Optimal 2-D(n xm,3,2,1 )- optical orthogonal codes[ J]. Information Theory, 2013, 59( 1 ) :710- 725.
  • 3OMRANI R, GARG G, KUMAR P V, et al. Large families of asymp- totically optimal two-dimensional optical orthogonal codes [ J ]. IEEE Transactions on Information Theory, 2012, 58 ( 2 ) : 1163 -1185.
  • 4HAMZEH B, NEZAMALHOSSEINI S A, SALEHI J A. Performance analysis of equal-energy two-level OCDMA system using generalized optical orthogonal codes[ J ]. Journal of Lightwave Technology, 2013, 31(10) :1573-1584.
  • 5ANAMAN J O, PRINCE S. Correlation properties and performance e- valuation of 1-Dimensional OOC's for OCDMA[ C]//2012 Interna- tional Conference on Devices, Circuits and Systems (ICDCS). NewYork, USA : IEEE ,2012 : 167-171.
  • 6CHAUHAN R C S, KUMAR R, SHUKLA M, et al. Proposal for one dimensional optical orthogonal codes: design, analysis & algorithm [ C]//2011 International Conference on Communication Systems and Network Technologies (CSNT). New York, USA: IEEE,2011:514- 519.
  • 7LI X B, PENG J, HUANG H B. Discussion on method of construc- tion of big capacity OCDMA address code: Construction of ( F, K, 1, 2) optical orthogonal codes from block design[ C]//2010 3rd Inter- national Congress on Image and Signal Processing (CISP). New York, USA:IEEE, 2010: 3272-3275.
  • 8HAITAO C, RUIZHONG W. Combinatorial constructions for optimal two-dimensional optical orthogonal codes [ J ]. IEEE Transactions on Information Theory, 2009,55 ( 3 ) : 1387 -1394.
  • 9SUN S, HONGXI Y, WANG Z Y, et al. A new family of 2-D optical orthogonal codes and analysis of its performance in optical CDMA ac- cess networks[J]. Journal of Lightwave Technology, 2006,24(4) : 1646-1653.
  • 10LI Ch Q, LI X B. OCDMA system in optical communication [ M ]. Beijing:Science Press, 2008:214( in Chinese).

二级参考文献8

共引文献5

同被引文献77

  • 1KAZOVSKY L G, SHAW W T, GUTIERREZ D, et al. Next-generation optical access networks[J]. Journal of Lightwave Technology, 2007, 25(11) .. 3428-3442. DOI..lO.1109/JLT.2007.907748.
  • 2FADHIL H A, ALJUNID S A, AHMAD R B. Performance of random diagonal code for OCDMA systems using new spectral direct detection technique[J]. Optical Fiber Technology, 2009, 15 (3) .. 283-289. DOI.. 10.1016/j. yofte. 2008. 12.005.
  • 3AHMED H Y, ALMALEEH M, FADHIL H, et al. Performance analysis of spectral-amplitude-coding optical CDMA systems with new subtract exclusive OR detection (SED) using vectors combinatorial (VC) code[J]. Optik- International Journal for Light and Electron Optics, 2012, 123(15): 1352-1359. DOI..10.1016/j.ijleo.2011.09.002.
  • 4ABD T H, ALJUNID S A, FADHIL H A, et al. Developm ent of a new code family based on SAC-OCDMA system with large cardinality for OCDMA network[J]. Optical Fiber Technology, 2011, 17 (4) .- 273-280. DOI: 10.1016/j. yofte.2011.04.002.
  • 5ANUAR M S, ALJUNID S A, SAAD N M, et al. New design of spectral amplitude coding in OCDMA with zero cross-correlation[J]. Optics communications, 2009, 282(14).. 2659-2664. DOI~10.1016/j.optcom.2009.03.079.
  • 6WAN Shengpeng, HE Sailing, HU Yu. Time-spreading wavelength-hopping 2D-OCDMA system with optical hard limiterl,J]. Optik-International Journal for Light and Electron Optics, 2007, 118 (8) : 381-384. DOI : 10. ]016/j.ijleo. 2006.04.016.
  • 7JYOTI V, KALER R S. Design and implementation of 2-dimensional wavelength/time codes for OCDMAI'J]. Optik- International Journal for Light and Electron Optics, 2011, 122(10)~ 851-857. DOI..10.1016/j.ijleo.2010.05.025.
  • 8HUANG Yuekai, BABY V, PRUCNAL P R, et al. Integrated holographic encoder for wavelength-hopping/time- spreading optical CDMAI,J]. IEEE Photonics Technology Letters, 2005, 17 (4).. 825-827. DOI.. 10. ll09/LPT. 2005.843934.
  • 9YEH 13 C, LIN C H, YANG C L, et al. Noncoherent Spectral/Spatial Optical CDMA System Using 2-D Diluted Perfect Difference Codesl,J]. Journal of Lightwave Technology, 2009, 27 (13) .- 2420-2432. DOh 10. ll09/JLT. 2008.2010721.
  • 10LIN C H, WU J, YANG C L, et al. Noncoherent spatial/spectral optical CDMA system with two-dimensional perfect difference codes[J]. Journal of Iightwave technology, 2005, 23 (12).. 3966-3980. DOI~ 10. ll09/JLT. 2005.859407.

引证文献9

二级引证文献16

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