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TIANHUA XU1,* , GUNNAR JACOBSEN2, JIE LI2, MARK LEESON1, SERGEI POPOV3
In optical transport networks, signal lightpaths between two terminal nodes can be different due to current network conditions. Thus the transmission distance and accumulated dispersion in the lightpath cannot be predicted. Therefore, the adaptive compensation of dynamic dispersion is necessary in such networks to enable flexible routing and switching. In this paper, we present a detailed analysis on the adaptive dispersion compensation using the least-mean-square (LMS) algorithm in coherent optical communication networks. It is found that the variable-step-size LMS equalizer can achieve the same performance with a lower complexity, compared to the traditional LMS algorithm..
Optical fiber communication, Coherent detection, Dynamic electronic equalization, Chromatic dispersion, Least mean square algorithm, Variable step size least mean square algorithm.
TIANHUA XU, GUNNAR JACOBSEN, JIE LI, MARK LEESON, SERGEI POPOV, Dynamic physical layer equalization in optical communication networks, Optoelectronics and Advanced Materials - Rapid Communications, 12, 5-6, May-June 2018, pp.292-298 (2018).
Submitted at: May 8, 2017
Accepted at: June 7, 2018
Optoelectronics and Advanced Materials - Rapid Communications
(2023): 0.5 - 2023 Journal Citation Reports (Clarivate Analytics, 2024)
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