Polarization-Dependent Loss Mitigation via Orthogonal Design Precoding and Interference Cancellation
Abstract
Recent work by Shehadeh and Kschischang provides a simple capacity-achieving scheme for channels with polarization-dependent loss (PDL) under common modeling assumptions via a careful choice of orthogonal-design-based precoding and interference cancellation. This letter extends that work with a simulation-based demonstration showing that this scheme remains highly effective at mitigating PDL in the highly practical setting of 16-QAM with Chase-decoded extended Hamming inner codes rather than the near-capacity inner codes considered in the original work. An alternative near-optimal variation of this scheme is also provided requiring only one inner code rather than two and suffering no penalty in the absence of PDL, making it much more practical.
Keywords
Cite
@article{arxiv.2502.04533,
title = {Polarization-Dependent Loss Mitigation via Orthogonal Design Precoding and Interference Cancellation},
author = {Mohannad Shehadeh and Frank R. Kschischang},
journal= {arXiv preprint arXiv:2502.04533},
year = {2025}
}
Comments
Submitted to IEEE Photonics Technology Letters