Corpus ID: 231986210

Performance Prediction Recipes for Optical Links

@article{Agrell2021PerformancePR,
  title={Performance Prediction Recipes for Optical Links},
  author={E. Agrell and M. Secondini and A. Alvarado and Tsuyoshi Yoshida},
  journal={ArXiv},
  year={2021},
  volume={abs/2102.10139}
}
Although forward error-correction (FEC) coding is an essential part of modern fiber-optic communication systems, it is impractical to implement and evaluate FEC in transmission experiments and simulations. Therefore, it is desirable to accurately predict the end-to-end link performance including FEC from transmission data recorded without FEC. In this tutorial, we provide ready-to-implement “recipes” for such prediction techniques, which apply to arbitrary channels and require no knowledge of… Expand

Figures from this paper

References

SHOWING 1-10 OF 23 REFERENCES
Performance Prediction of Nonbinary Forward Error Correction in Optical Transmission Experiments
  • 43
  • PDF
Probabilistic Shaping and Forward Error Correction for Fiber-Optic Communication Systems
  • 57
Replacing the Soft-Decision FEC Limit Paradigm in the Design of Optical Communication Systems*
  • 163
  • PDF
Performance Metrics for Systems With Soft-Decision FEC and Probabilistic Shaping
  • 20
  • PDF
Information Rates of Next-Generation Long-Haul Optical Fiber Systems Using Coded Modulation
  • 44
  • PDF
Estimation of Soft FEC Performance in Optical Transmission Experiments
  • 64
Post-FEC BER Benchmarking for Bit-Interleaved Coded Modulation With Probabilistic Shaping
  • 5
  • PDF
Achievable Information Rates for Coded Modulation With Hard Decision Decoding for Coherent Fiber-Optic Systems
  • 7
  • PDF
Probabilistic Constellation Shaping for Optical Fiber Communications
  • 76
  • PDF
Probabilistic Amplitude Shaping With Hard Decision Decoding and Staircase Codes
  • 17
  • PDF
...
1
2
3
...