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不同脉冲编码调制的BOTDA系统性能分析与比较 被引量:1

Performance Analysis and Comparison of BOTDA System Using Different Pulse Code Modulation
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摘要 研究了基于脉冲编码调制的布里渊光时域分析(BOTDA)系统原理,该系统向传感光纤注入经脉冲编码调制后的光脉冲序列,在接收端用数据处理程序恢复系统的单脉冲响应,从而提高BOTDA系统的信噪比、温度和应变分辨率。理论研究了BOTDA系统中Simplex码、Golay码和CCPONS码的编码和解码原理;利用Matlab仿真研究了不同脉冲编码调制的BOTDA系统的时域输出信号,并对比分析了三种编码对系统信噪比的改善情况,结果表明采用脉冲编码技术可使BOTDA系统性能得到有效提升,CCPONS码调制时可获得最佳系统性能,Simplex码次之。 The principles of Brillouin optical time domain analysis(BOTDA)system based on pulse coding were analyzed.The system launches optical pulse sequence produced by encoded pulse modulation to the sensing fiber and retrieves the single-pulse response with a data processing program at the receiving end of the system,thereby enhancing the signal-to-noise ratio,and the temperature/strain resolution of BOTDA system.In order to verify the improvement of system performance,the principles of the encoding and decoding of Simplex code,Golay code and CCPONS code in BOTDA system were analyzed.The time domain output signals of BOTDA system using different pulse code modulations were studied by Matlab simulation,and the improvement of signal-to-noise ratio of the system using these three codes were compared.The simulation results show that the pulse coding technique can enhance the performance of BOTDA system effectively and the best system performance can be achieved in CCPONS code modulation system,however the performance of Simplex code modulation system is better than that of Golay code modulation system.
出处 《半导体光电》 CAS 北大核心 2015年第5期780-786,共7页 Semiconductor Optoelectronics
基金 国家自然科学基金项目(61377088) 河北省自然科学基金项目(E2012502045 F2014502098)
关键词 布里渊光时域分析 脉冲编码 信噪比 Brillouin optical time domain analysis pulse coding signal-to-noise ratio
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参考文献14

  • 1Horiguchi T Tateda M. BOTDA-noadestructivemeasurement of single-mode optical fiber attenuationcharacteristics using Brillouin interaction: theory[J].J. Lightwave Technol.,1989,7(8): 1170-1176.
  • 2Taki M, Muanenda Y,Oton C J,et al. Cyclic pulsecoding for fast BOTDA fiber sensors[J]. Opt. Lett.,2013,38(15): 2887-2888.
  • 3Brown A W’Colpitts B G,Brown K,et al. Dark-pulseBrillouin optical time-domain sensor with 20 mm spatialResolution[J]. J. Lightwave Technol.,2007,25(1):510-512.
  • 4LiCH,Nishiguchi K,Miyatake M, et al. PPP-BOTDA method to achieve 2 cm spatial resolution inBrillouin distributed measuring technique [J]. IEICETech. Rep.,2008,32(108) : 55-60.
  • 5Sahu P K, Gowre S C,Mahapatra S M D. Opticaltime-domain reflectometer performance improvementusing complementary correlated Prometheusorthonormal sequence[J]. IET Optoelectron. , 2008,2(3): 128-133.
  • 6Liang H, Li W,Linze N, et al. High-resolution DPP-BOTDA over 50 km LEAF using return-to-zero codedpulses[J]. Opt. Lett.,2010,28(16) : 1503-1505.
  • 7Soto M A,Bolognini G,Pasquale F D. Simplex-codedBOTDA fiber sensor with 1 m spatial resolution over a50 km range[J]. Opt. Lett.,2010, 35(2) : 259-261.
  • 8Mao Y,Guo N,Yu K L,et al. 1 cm-spatial-resolutionBrillouin optical time-domain analysis based on brightpulse Brillouin gain and complementary code[J]. IEEEPhotoics J.,2012,4(6): 2243-2248.
  • 9Minardo A,Bernini R,Zeni L,et al. A reconstructiontechnique for long-range stimulated Brillouin scatteringdistributed fiber-optic sensors : experimental results[J]. Meas. Sci. Technol.,2005,16(4) : 900-908.
  • 10Horiguchi T,Shimizu K,Kurashima T, et al.Development of a distributed sensing technique usingBrillouin scattering [ J ]. J. Lightwave Technol.,1995, 13(7): 1296-1302.

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