Optical Communication Technology, Volume. 44, Issue 12, 11(2020)
Communication performance prediction of nonlinear compensation coherent optical fiber transmission system
References(18)
[1] [1] GAO Y, CARTLEDGE J C, KARAR A S, et al. Reducing the comp-lexity of perturbation based nonlinearity pre-compensation using symmetric EDC and pulse shaping[J]. Optics express, 2014, 22(2): 1209-1219.
[2] [2] SECONDINI M, FORESTIERI E. On XPM mitigation in WDM fiber-optic systems[J]. IEEE Photonics Technology Letters, 2014, 26(22): 2252-2255.
[3] [3] LIU X, CHRAPLYVY A R, WINZER P J, et al. Phase-conjugated twin waves for communication beyond the Kerr nonlinearity limit[J]. Nature Photonics, 2013, 7(7): 560-568.
[4] [4] IP E. Nonlinear compensation using backpropagation for polarization-multiplexed transmission[J]. Journal of lightwave technology, 2010, 28(6): 939-951.
[5] [5] RAFIQUE D, ELLIS A D. Impact of signal-ASE four-wave mixing on the effectiveness of digital back-propagation in 112 Gb/s PM-QPSK systems[J]. Optics express, 2011, 19(4): 3449-3454.
[6] [6] GHAZISAEIDI A. A theory of nonlinear interactions between signal and amplified spontaneous emission noise in coherent wavelength division multiplexed systems[J]. Journal of Lightwave Technology, 2017, 35(23): 5150-5175.
[7] [7] SERENA P. Nonlinear signal–noise interaction in optical links with nonlinear equalization[J]. Journal of Lightwave technology, 2016, 34(6): 1476-1483.
[8] [8] SEMRAU D, LAVERY D, GALDINO L, et al. The impact of transceiver noise on digital nonlinearity compensation[J]. Journal of Lightwave Technology, 2018, 36(3): 695-702.
[9] [9] XU T, SHEVCHENKO N A, LAVERY D, et al. Modulation format dependence of digital nonlinearity compensation performance in optical fibre communication systems[J]. Optics express, 2017, 25(4): 3311-3326.
[10] [10] ELLIS A D, AL KHATEEB M A Z, MCCARTHY M E. Impact of optical phase conjugation on the nonlinear Shannon limit[J]. Journal of Lightwave Technology, 2016, 35(4): 792-798.
[11] [11] CARTLEDGE J C, GUIOMAR F P, KSCHISCHANG F R, et al. Digital signal processing for fiber nonlinearities[J]. Optics express, 2017, 25(3): 1916-1936.
[12] [12] AL-KHATEEB M A Z, MCCARTHY M, NCHEZ C, et al. Effect of second order signal–noise interactions in nonlinearity compensated optical transmission systems[J]. Optics letters, 2016, 41(8): 1849-1852.
[13] [13] CARENA A, BOSCO G, CURRI V, et al. EGN model of non-linear fiber propagation[J]. Optics express, 2014, 22(13): 16335-16362.
[14] [14] LAVERY D, IVES D, LIGA G, et al. The benefit of split nonlinearity compensation for single channel optical fiber communications[J]. IEEE Photonics Technology Letters, 2016, 28(17): 1803-1806.
[15] [15] POGGIOLINI P, BOSCO G, CARENA A, et al. The GN-model of fiber non-linear propagation and its applications[J]. Journal of lightwave technology, 2013, 32(4): 694-721.
[16] [16] POGGIOLINI P, BOSCO G, CARENA A, et al. A simple and effective closed-form GN model correction formula accounting for signal non-Gaussian distribution[J]. Journal of Lightwave Technology, 2015, 33(2): 459-473.
[17] [17] IVES D J, BAYVEL P, SAVORY S J. Adapting transmitter power and modulation format to improve optical network performance utilizing the Gaussian noise model of nonlinear impairments[J]. Journal of Lightwave Technology, 2014, 32(21): 3485-3494.
[18] [18] BOSCO G, CARENA A, CURRI V, et al. Suppression of spurious tones induced by the split-step method in fiber systems simulation[J]. IEEE Photonics Technology Letters, 2000, 12(5): 489-491.
Tools
Get Citation
Copy Citation Text
YAN Huiwen, YI Xiaogang. Communication performance prediction of nonlinear compensation coherent optical fiber transmission system[J]. Optical Communication Technology, 2020, 44(12): 11
Paper Information
Category:
Received: Apr. 30, 2020
Accepted: --
Published Online: Apr. 17, 2021
The Author Email: Xiaogang YI (yixiaogang@tyut.edu.cn)
© Copyright 2018-2021 | Chinese Laser Press.
All Rights Reserved 沪ICP备15018463号-20