Improved IQ imbalance compensation algorithm in faster-than-Nyquist coherent optical communication systems

Tao Yang; Jing Zhao; Fengyu Cao; Gaizun Xia; Naixin Yao; Liman Liu

doi:10.1117/12.3007726

24 November 2023 Improved IQ imbalance compensation algorithm in faster-than-Nyquist coherent optical communication systems

Tao Yang, Jing Zhao, Fengyu Cao, Gaizun Xia, Naixin Yao, Liman Liu

Author Affiliations +

Proceedings Volume 12935, Fourteenth International Conference on Information Optics and Photonics (CIOP 2023); 1293533 (2023) https://doi.org/10.1117/12.3007726
Event: Fourteenth International Conference on Information Optics and Photonics (CIOP 2023), 2023, Xi’an, China

Abstract

In order to solve the problem that the severe inter-symbol interference (ISI) introduced by faster-than-Nyquist (FTN) strong filtering leads to the degradation of the equalization capability of the traditional receiver side (Rx) IQ imbalance compensation, a two-stage Rx IQ imbalance compensation algorithm is designed and demonstrated in this paper. The algorithm uses a time domain equalizer based on the decision directed-least mean square (DD-LMS) algorithm cascaded with a 4×2 frequency domain (FD) equalizer based on the radius directed equalization (RDE) algorithm, which can effectively improve the compensation range compared to using only a conventional 4×2 FD equalizer based on the RDE algorithm. 128Gbaud-FTN-PM-16QAM system simulation results show that with an acceleration factor as low as 0.85, the designed algorithm has a 14.3%, 100% and 40% improvement in the compensation range of Rx IQ amplitude, phase and skew imbalance compared to using only the 4×2 FD equalizer based on the RDE algorithm. The results validate the performance improvement of the proposed algorithm.

(2023) Published by SPIE. Downloading of the abstract is permitted for personal use only.

Citation Download Citation

Tao Yang, Jing Zhao, Fengyu Cao, Gaizun Xia, Naixin Yao, and Liman Liu "Improved IQ imbalance compensation algorithm in faster-than-Nyquist coherent optical communication systems", Proc. SPIE 12935, Fourteenth International Conference on Information Optics and Photonics (CIOP 2023), 1293533 (24 November 2023); https://doi.org/10.1117/12.3007726

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KEYWORDS

Receivers

Optical transmission

Digital signal processing

Optical coherence

Tunable filters

Polarization

Telecommunications

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