Data-aided Iterative Algorithms for Linearizing IM/DD Optical Transmission Systems

Shaohua Hu; Jing Zhang; Jianming Tang; Wei Jin; Roger Giddings; Kun Qiu

doi:10.1109/JLT.2021.3063689

Data-aided Iterative Algorithms for Linearizing IM/DD Optical Transmission Systems

Shaohua Hu
, Jing Zhang
, Jianming Tang
, Wei Jin
, Roger Giddings
, Kun Qiu

School of Computer Science & Engineering

University of Electronic Science and Technology of China, Chengdu

Research output: Contribution to journal › Article › peer-review

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Abstract

—DSP-enhanced intensity-modulation direct-detection
(IM/DD) systems can support up to 56 Gb/s over 100 km signal
transmissions at C-band. To achieve higher data rates and longer
transmission distances, we propose data-aided iterative algorithm
(DIA) and decision-directed DIA (DD-DIA) to digitally mitigate
signal-signal beating interference (SSBI) without requiring any
modifications to physical layer structures. DIA utilizes pilot
symbols with uniformly spaced insertions to relax the modified
Gerchberg-Saxton (G-S) algorithms that suffer from the local
optimum problem. To further improve the symbol error rate
(SER) performance and convergence speed, DD-DIA introduces a
decision process to generate pseudo-pilots. We numerically
compare DIA with other algorithms and find that DIA can
recover signals subject to large fiber dispersions corresponding to
which conventional IA and Volterra filter (VF) fail, while DD-DIA
significantly accelerates the convergence speed and improves the
reconstruction performance compared with DIA, it can support
100-Gb/s PAM4 over 400-km IM/DD transmissions within just 50
iterations. Two orders of magnitude reductions in SER is
observed for 100 Gb/s PAM4 signal transmission over 100-km
SSMFs. Compared with conventional IA, the proposed techniques
have higher convergence speeds, better global optimum features
and large tolerances to physical model errors. In particular,
DD-DIA results in larger optical signal-to-noise ratio (OSNR)/
received optical power (ROP) improvement, higher transmission
capacities and less computational complexity. DD-DIA is a
promising algorithm for efficiently reconstructing 2-dimensional
optical field for conventional IM/DD optical transmission systems.
Index Terms—Optical communication, digital signal
processing, IM/DD system, field reconstruction.

Original language	English
Pages (from-to)	2864 - 2872
Number of pages	9
Journal	Journal of Lightwave Technology
Volume	39
Issue number	9
Early online date	3 Mar 2021
DOIs	https://doi.org/10.1109/JLT.2021.3063689
Publication status	Published - 1 May 2021

Keywords

Adaptive optics
DD system
Digital signal processing
IM
Optical communication
Optical fibers
Optical filters
Optical modulation
Parameter estimation
Physical layer
Signal processing algorithms
field reconstruction

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10.1109/JLT.2021.3063689

Formatted (Double Column) Main File - PDF Document OnlyAccepted author manuscript, 1.1 MBLicence: CC BY

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title = "Data-aided Iterative Algorithms for Linearizing IM/DD Optical Transmission Systems",

abstract = "—DSP-enhanced intensity-modulation direct-detection (IM/DD) systems can support up to 56 Gb/s over 100 km signal transmissions at C-band. To achieve higher data rates and longer transmission distances, we propose data-aided iterative algorithm (DIA) and decision-directed DIA (DD-DIA) to digitally mitigate signal-signal beating interference (SSBI) without requiring any modifications to physical layer structures. DIA utilizes pilot symbols with uniformly spaced insertions to relax the modified Gerchberg-Saxton (G-S) algorithms that suffer from the local optimum problem. To further improve the symbol error rate (SER) performance and convergence speed, DD-DIA introduces a decision process to generate pseudo-pilots. We numerically compare DIA with other algorithms and find that DIA can recover signals subject to large fiber dispersions corresponding to which conventional IA and Volterra filter (VF) fail, while DD-DIA significantly accelerates the convergence speed and improves the reconstruction performance compared with DIA, it can support 100-Gb/s PAM4 over 400-km IM/DD transmissions within just 50 iterations. Two orders of magnitude reductions in SER is observed for 100 Gb/s PAM4 signal transmission over 100-km SSMFs. Compared with conventional IA, the proposed techniques have higher convergence speeds, better global optimum features and large tolerances to physical model errors. In particular, DD-DIA results in larger optical signal-to-noise ratio (OSNR)/ received optical power (ROP) improvement, higher transmission capacities and less computational complexity. DD-DIA is a promising algorithm for efficiently reconstructing 2-dimensional optical field for conventional IM/DD optical transmission systems. Index Terms—Optical communication, digital signal processing, IM/DD system, field reconstruction.",

keywords = "Adaptive optics, DD system, Digital signal processing, IM, Optical communication, Optical fibers, Optical filters, Optical modulation, Parameter estimation, Physical layer, Signal processing algorithms, field reconstruction",

author = "Shaohua Hu and Jing Zhang and Jianming Tang and Wei Jin and Roger Giddings and Kun Qiu",

year = "2021",

month = may,

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doi = "10.1109/JLT.2021.3063689",

language = "English",

volume = "39",

pages = "2864 -- 2872",

journal = "Journal of Lightwave Technology",

issn = "0733-8724",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

number = "9",

}

TY - JOUR

T1 - Data-aided Iterative Algorithms for Linearizing IM/DD Optical Transmission Systems

AU - Hu, Shaohua

AU - Zhang, Jing

AU - Tang, Jianming

AU - Jin, Wei

AU - Giddings, Roger

AU - Qiu, Kun

PY - 2021/5/1

Y1 - 2021/5/1

N2 - —DSP-enhanced intensity-modulation direct-detection (IM/DD) systems can support up to 56 Gb/s over 100 km signal transmissions at C-band. To achieve higher data rates and longer transmission distances, we propose data-aided iterative algorithm (DIA) and decision-directed DIA (DD-DIA) to digitally mitigate signal-signal beating interference (SSBI) without requiring any modifications to physical layer structures. DIA utilizes pilot symbols with uniformly spaced insertions to relax the modified Gerchberg-Saxton (G-S) algorithms that suffer from the local optimum problem. To further improve the symbol error rate (SER) performance and convergence speed, DD-DIA introduces a decision process to generate pseudo-pilots. We numerically compare DIA with other algorithms and find that DIA can recover signals subject to large fiber dispersions corresponding to which conventional IA and Volterra filter (VF) fail, while DD-DIA significantly accelerates the convergence speed and improves the reconstruction performance compared with DIA, it can support 100-Gb/s PAM4 over 400-km IM/DD transmissions within just 50 iterations. Two orders of magnitude reductions in SER is observed for 100 Gb/s PAM4 signal transmission over 100-km SSMFs. Compared with conventional IA, the proposed techniques have higher convergence speeds, better global optimum features and large tolerances to physical model errors. In particular, DD-DIA results in larger optical signal-to-noise ratio (OSNR)/ received optical power (ROP) improvement, higher transmission capacities and less computational complexity. DD-DIA is a promising algorithm for efficiently reconstructing 2-dimensional optical field for conventional IM/DD optical transmission systems. Index Terms—Optical communication, digital signal processing, IM/DD system, field reconstruction.

AB - —DSP-enhanced intensity-modulation direct-detection (IM/DD) systems can support up to 56 Gb/s over 100 km signal transmissions at C-band. To achieve higher data rates and longer transmission distances, we propose data-aided iterative algorithm (DIA) and decision-directed DIA (DD-DIA) to digitally mitigate signal-signal beating interference (SSBI) without requiring any modifications to physical layer structures. DIA utilizes pilot symbols with uniformly spaced insertions to relax the modified Gerchberg-Saxton (G-S) algorithms that suffer from the local optimum problem. To further improve the symbol error rate (SER) performance and convergence speed, DD-DIA introduces a decision process to generate pseudo-pilots. We numerically compare DIA with other algorithms and find that DIA can recover signals subject to large fiber dispersions corresponding to which conventional IA and Volterra filter (VF) fail, while DD-DIA significantly accelerates the convergence speed and improves the reconstruction performance compared with DIA, it can support 100-Gb/s PAM4 over 400-km IM/DD transmissions within just 50 iterations. Two orders of magnitude reductions in SER is observed for 100 Gb/s PAM4 signal transmission over 100-km SSMFs. Compared with conventional IA, the proposed techniques have higher convergence speeds, better global optimum features and large tolerances to physical model errors. In particular, DD-DIA results in larger optical signal-to-noise ratio (OSNR)/ received optical power (ROP) improvement, higher transmission capacities and less computational complexity. DD-DIA is a promising algorithm for efficiently reconstructing 2-dimensional optical field for conventional IM/DD optical transmission systems. Index Terms—Optical communication, digital signal processing, IM/DD system, field reconstruction.

KW - Adaptive optics

KW - DD system

KW - Digital signal processing

KW - IM

KW - Optical communication

KW - Optical fibers

KW - Optical filters

KW - Optical modulation

KW - Parameter estimation

KW - Physical layer

KW - Signal processing algorithms

KW - field reconstruction

U2 - 10.1109/JLT.2021.3063689

DO - 10.1109/JLT.2021.3063689

M3 - Article

SN - 0733-8724

VL - 39

SP - 2864

EP - 2872

JO - Journal of Lightwave Technology

JF - Journal of Lightwave Technology

IS - 9

ER -

Data-aided Iterative Algorithms for Linearizing IM/DD Optical Transmission Systems

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Keywords

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