Lengthwise Measurement of Chromatic Dispersion along an Optical Fiber Transmission Link with Enhanced Correction Factor

被引:0
|
作者
Electrical and Communication Engineering Department, Umm Al Qura University, Makkah, Saudi Arabia [1 ]
机构
[1] Electrical and Communication Engineering Department, Umm Al Qura University, Makkah
来源
J Opt Commun | / 4卷 / 307-311期
关键词
backscattering; chromatic dispersion; MFD; OTDR;
D O I
10.1515/joc-2014-0084
中图分类号
学科分类号
摘要
In recent years optical time domain reflectometer (OTDR)-based techniques have become a known practice for measuring chromatic dispersion (CD) distribution along an optical fiber transmission link. In this paper, a measurement technique which uses a four-wavelength bidirectional OTDR to evaluate the CD distribution along the length of an optical fiber transmission system has been presented. A novel formulation has been developed for this nondestructive technique to improve the correction factor, which leads to an improvement in the CD and mode field diameter (MFD) measurement. The obtained experimental outcomes are in good agreement with those obtained by the interferometric technique. © 2015 by De Gruyter.
引用
收藏
页码:307 / 311
页数:4
相关论文
共 50 条
  • [41] A new optical post compensation technique for chromatic dispersion: Application to fiber-fed wireless
    Guizani, S
    Cheriti, A
    Razzak, M
    Bouslimani, Y
    Hamam, H
    2005 International Conference on Wireless Networks, Communications and Mobile Computing, Vols 1 and 2, 2005, : 641 - 648
  • [42] Estimation of Minimum Required Number of Coefficients of Digital Filter for Chromatic Dispersion Compensation in Optical Fiber
    Meltenisov, Mikhail
    Matukhin, Aleksandr
    2018 10TH INTERNATIONAL CONGRESS ON ULTRA MODERN TELECOMMUNICATIONS AND CONTROL SYSTEMS AND WORKSHOPS (ICUMT 2018): EMERGING TECHNOLOGIES FOR CONNECTED SOCIETY, 2018,
  • [43] Overcoming chromatic dispersion effects with enhanced RF gain using the phase detuning technique in an SOA cascaded optical single-sideband transmission
    Koo, BJ
    Lee, US
    Lee, S
    Han, SK
    MICROWAVE AND OPTICAL TECHNOLOGY LETTERS, 2004, 42 (01) : 42 - 43
  • [44] Accurate measurement of chromatic dispersion of optical fibers based on phase-intensity modulation conversion
    Zou, Xin-Hai
    Zhang, Shang-Jian
    Wang, Heng
    Zheng, Xiu
    Ye, Sheng-Wei
    Zhang, Ya-Li
    Liu, Yong
    Zhang, S.-J. (sjzhang@uestc.edu.cn), 1600, Board of Optronics Lasers (25): : 932 - 936
  • [45] Validation of the automated system for simultaneous spectral transmission/reflection and dispersion characteristics measurement of fiber Bragg gratings and optical fibers
    Herman, Dorota
    Osuch, Tomasz
    Kossek, Tomasz
    PHOTONICS APPLICATIONS IN ASTRONOMY, COMMUNICATIONS, INDUSTRY, AND HIGH-ENERGY PHYSICS EXPERIMENTS 2013, 2013, 8903
  • [46] Measurement of group velocity dispersion in optical fiber with a hundreds of meters lengths
    Ramos-Beltran, J.
    Beltran-Perez, G.
    Munoz-Aguirre, S.
    Castillo-Mixcoatl, J.
    22ND CONGRESS OF THE INTERNATIONAL COMMISSION FOR OPTICS: LIGHT FOR THE DEVELOPMENT OF THE WORLD, 2011, 8011
  • [47] Effects of fiber chromatic dispersion on self-phase modulation based all-optical regenerator
    Zhang J.
    Pan W.
    Yan L.
    Luo B.
    Qiangjiguang Yu Lizishu/High Power Laser and Particle Beams, 2010, 22 (06): : 1181 - 1186
  • [48] Weighted finite impulse response filter for chromatic dispersion equalization in coherent optical fiber communication systems
    Zeng, Ziyi
    Yang, Aiying
    Guo, Peng
    Feng, Lihui
    OPTOELECTRONIC DEVICES AND OPTICAL SIGNAL PROCESSING, 2017, 10617
  • [49] MINIMIZATION OF THE CHROMATIC DISPERSION OVER A BROAD WAVELENGTH RANGE IN A SINGLE-MODE OPTICAL-FIBER
    LUNDIN, R
    APPLIED OPTICS, 1993, 32 (18): : 3241 - 3245
  • [50] Performance of an optical wideband WDM system considering stimulated Raman scattering, fiber attenuation and chromatic dispersion
    Ataur Rahman Sarkar
    Mohammed Nazrul Islam
    Mohammad Golam Mostafa
    Optical and Quantum Electronics, 2007, 39 : 659 - 675
12345