Polarization-based 6 × 6 MIMO transmission over 75 km few-mode multicore fiber using recursive least squares constant modulus algorithm

Hafiz Ahmad Khalid; Rahat Ullah; Bo Liu; Xiang Jun Xin; Qi Zhang; Qing Hua Tian; Sibghat Ullah

doi:10.1117/1.OE.58.2.020501

Polarization-based 6 × 6 MIMO transmission over 75 km few-mode multicore fiber using recursive least squares constant modulus algorithm

Hafiz Ahmad Khalid^*
, Rahat Ullah
, Bo Liu
, Xiang Jun Xin
, Qi Zhang
, Qing Hua Tian
, Sibghat Ullah

^*此作品的通讯作者

Beijing University of Posts and Telecommunications
Nanjing University of Information Science & Technology

科研成果: 期刊稿件 › 文章 › 同行评审

1 引用（Scopus）

摘要

In an optical multiple input multiple output (MIMO) transmission system, mode coupling and mode dispersion have a significant impact on the signal recovery processes at the receiver. We describe a polarization-based MIMO transmission by using mode division multiplexing and polarization division multiplexing over few-mode multicore fiber. We used three optical modes with x-y polarizations for 6 × 6 MIMO transmission over 75 km length of few-mode multicore fiber at 20 Gbps quadrature phase shift keying signals. Optical MIMO transmission is successfully recovered by using a recursive least squares constant modulus algorithm (RLSCMA). The simulation results show that RLSCMA enhanced the system performance of optical MIMO transmission system by employing sufficient adaptive equalization.

源语言	英语
文章编号	020501
期刊	Optical Engineering
卷	58
期	2
DOI	https://doi.org/10.1117/1.OE.58.2.020501
出版状态	已出版 - 1 2月 2019
已对外发布	是

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title = "Polarization-based 6 × 6 MIMO transmission over 75 km few-mode multicore fiber using recursive least squares constant modulus algorithm",

abstract = "In an optical multiple input multiple output (MIMO) transmission system, mode coupling and mode dispersion have a significant impact on the signal recovery processes at the receiver. We describe a polarization-based MIMO transmission by using mode division multiplexing and polarization division multiplexing over few-mode multicore fiber. We used three optical modes with x-y polarizations for 6 × 6 MIMO transmission over 75 km length of few-mode multicore fiber at 20 Gbps quadrature phase shift keying signals. Optical MIMO transmission is successfully recovered by using a recursive least squares constant modulus algorithm (RLSCMA). The simulation results show that RLSCMA enhanced the system performance of optical MIMO transmission system by employing sufficient adaptive equalization.",

keywords = "mode division multiplexing, optical fiber communication, optical multiple input multiple output equalization, polarization division multiplexing, recursive least squares constant modulus algorithm",

author = "Khalid, \{Hafiz Ahmad\} and Rahat Ullah and Bo Liu and Xin, \{Xiang Jun\} and Qi Zhang and Tian, \{Qing Hua\} and Sibghat Ullah",

note = "Publisher Copyright: {\textcopyright} 2019 Society of Photo-Optical Instrumentation Engineers (SPIE).",

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AU - Khalid, Hafiz Ahmad

AU - Ullah, Rahat

AU - Liu, Bo

AU - Xin, Xiang Jun

AU - Zhang, Qi

AU - Tian, Qing Hua

AU - Ullah, Sibghat

PY - 2019/2/1

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N2 - In an optical multiple input multiple output (MIMO) transmission system, mode coupling and mode dispersion have a significant impact on the signal recovery processes at the receiver. We describe a polarization-based MIMO transmission by using mode division multiplexing and polarization division multiplexing over few-mode multicore fiber. We used three optical modes with x-y polarizations for 6 × 6 MIMO transmission over 75 km length of few-mode multicore fiber at 20 Gbps quadrature phase shift keying signals. Optical MIMO transmission is successfully recovered by using a recursive least squares constant modulus algorithm (RLSCMA). The simulation results show that RLSCMA enhanced the system performance of optical MIMO transmission system by employing sufficient adaptive equalization.

AB - In an optical multiple input multiple output (MIMO) transmission system, mode coupling and mode dispersion have a significant impact on the signal recovery processes at the receiver. We describe a polarization-based MIMO transmission by using mode division multiplexing and polarization division multiplexing over few-mode multicore fiber. We used three optical modes with x-y polarizations for 6 × 6 MIMO transmission over 75 km length of few-mode multicore fiber at 20 Gbps quadrature phase shift keying signals. Optical MIMO transmission is successfully recovered by using a recursive least squares constant modulus algorithm (RLSCMA). The simulation results show that RLSCMA enhanced the system performance of optical MIMO transmission system by employing sufficient adaptive equalization.

KW - mode division multiplexing

KW - optical fiber communication

KW - optical multiple input multiple output equalization

KW - polarization division multiplexing

KW - recursive least squares constant modulus algorithm

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Polarization-based 6 × 6 MIMO transmission over 75 km few-mode multicore fiber using recursive least squares constant modulus algorithm

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