期刊
ELECTRONICS
卷 10, 期 19, 页码 -出版社
MDPI
DOI: 10.3390/electronics10192417
关键词
inter-data centers optical interconnection; iterative polar modulation; K-means cluster algorithm
资金
- National Key Research and Development Project of China [2019YFB1803701]
- National Natural Science Foundation of China [61835002, 61727817]
The study introduces a novel approach to enhance capacity and anti-interference capability against nonlinear noise by applying the K-means clustering algorithm, showing a significant reduction in the gap between IPM and Shannon limit.
The demand of delivering various services is driving inter-data centers optical interconnection towards 400 G/800 G, which calls for increasing capacity and spectrum efficiency. The aim of this study is to effectively increase capacity while also improving nonlinear noise anti-interference. Hence, this paper presents a state-of-the-art scheme that applies the K-means cluster algorithm in geometric shaping based on iterative polar modulation (IPM). A coherent optical communication simulation system was established to demonstrate the performance of our proposal. The investigation reveals that the gap between IPM and Shannon limit has significantly narrowed in terms of mutual information. Moreover, when compared with IPM and QAM using the blind phase searching under the same order at HD-FEC threshold, the IPM-16 using the K-means algorithm achieves 0.9 dB and 1.7 dB gain; the IPM-64 achieves 0.3 dB and 1.1 dB gain, and the IPM-256 achieves 0.4 dB and 0.8 dB gain. The robustness of nonlinear noise and high capacity enable this state-of-the-art scheme to be used as an optional modulation format not only for inter-data centers optical interconnection but also for any high speed, long distance optical fiber communication system.
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