Deep learning-based Phase Retrieval Scheme for Minimum Phase Signal Recovery

2022 Italian Conference on Optics and Photonics (ICOP) Pub Date : 2022-06-15 DOI:10.1109/ICOP56156.2022.9911725
Daniele Orsuti, C. Antonelli, A. Chiuso, M. Santagiustina, A. Mecozzi, A. Galtarossa, L. Palmieri
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Abstract

We propose a deep learning-based phase retrieval scheme to recover the phase of a minimum-phase signal after single-photodiode direct-detection. We show that, by properly generating the training data for the deep learning model, the proposed scheme can jointly perform full-field recovery and compensate for propagation-related linear and nonlinear impairments. Simulation results in relevant transmission system settings show that the proposed scheme relaxes the carrier-to-signal power ratio (CSPR) requirements by 2.8-dB and achieves 1.8-dB better receiver sensitivity while being on average 6 times computationally faster than the conventional 4-fold upsampled Kramers-Kronig receiver aided with digital-back-propagation.
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基于深度学习的最小相位信号恢复相位检索方案
我们提出了一种基于深度学习的相位恢复方案,用于恢复单光电二极管直接检测后最小相位信号的相位。研究表明,通过适当地生成深度学习模型的训练数据,所提出的方案可以联合执行全场恢复并补偿与传播相关的线性和非线性损伤。在相关传输系统设置下的仿真结果表明,该方案将载波与信号功率比(CSPR)的要求降低了2.8 db,提高了1.8 db的接收灵敏度,同时平均计算速度比传统的4倍上采样Kramers-Kronig接收机提高了6倍。
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2022 Italian Conference on Optics and Photonics (ICOP)
2022 Italian Conference on Optics and Photonics (ICOP)
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