Comprehensive Analysis of Time-Domain Hybrid PAM for Data-Rate and Distance Adaptive UWOC System

Comprehensive Analysis of Time-Domain Hybrid PAM for Data-Rate and Distance Adaptive UWOC System

The challenge for next-generation underwater optical wireless communication systems is to develop optical transceivers that can operate with low power consumption by maximizing the transmission capacity according to the transmission distance between transmitters and receivers. This study proposes an...

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Main Authors: Takahiro Kodama, Muhamad Aizat Bin Ahmad Sanusi, Fumiya Kobori, Tomotaka Kimura, Yoshiaki Inoue, Masahiko Jinno
Format: Article
Language:English
Published: IEEE 2021-01-01
Series:IEEE Access
Subjects:
Underwater optical wireless communication
underwater equipment
underwater technology
intensity modulation
Online Access:https://ieeexplore.ieee.org/document/9395588/
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spelling doaj-83b0cbcfa32e42e1b092a605b1660dc12021-04-19T23:00:47ZengIEEEIEEE Access2169-35362021-01-019570645707410.1109/ACCESS.2021.30714679395588Comprehensive Analysis of Time-Domain Hybrid PAM for Data-Rate and Distance Adaptive UWOC SystemTakahiro Kodama0https://orcid.org/0000-0002-3381-7418Muhamad Aizat Bin Ahmad Sanusi1Fumiya Kobori2Tomotaka Kimura3https://orcid.org/0000-0003-0677-9767Yoshiaki Inoue4https://orcid.org/0000-0002-2483-7652Masahiko Jinno5https://orcid.org/0000-0001-8928-6903Faculty of Engineering and Design, Kagawa University, Takamatsu, JapanFaculty of Engineering and Design, Kagawa University, Takamatsu, JapanFaculty of Engineering and Design, Kagawa University, Takamatsu, JapanFaculty of Science and Engineering, Doshisha University, Kyotanabe, JapanDepartment of Information and Communication Technology, Graduate School of Engineering, Osaka University, Suita, JapanFaculty of Engineering and Design, Kagawa University, Takamatsu, JapanThe challenge for next-generation underwater optical wireless communication systems is to develop optical transceivers that can operate with low power consumption by maximizing the transmission capacity according to the transmission distance between transmitters and receivers. This study proposes an underwater wireless optical communication (UWOC) system using an optical transceiver with an optimum transmission rate for the deep sea with near-pure water properties. As a method for actualizing an optical transceiver with an optimum transmission rate in a UWOC system, time-domain hybrid pulse amplitude modulation (PAM) (TDHP) using a transmission rate and distance-adaptive intensity modulation/direct detection optical transceiver is considered. In the TDHP method, variable transmission capacity is actualized while changing the generation ratio of two intensity-modulated signals with different noise immunities in the time domain. Three different color laser diodes (LDs), red, blue, and green are used in an underwater channel transmission transceiver that comprises the LD and a photodiode. The maximum transmission distance while changing the incidence of PAM 2 and PAM 4 signals that calibrate the TDHP in a pure transmission line and how the maximum transmission distance changes when the optical transmitter/receiver spatial optical system is altered from the optimum conditions are clarified based on numerical calculation and simulation. To the best knowledge of the authors, there is no other research on data-rate and distance adaptive UWOC system that applies the TDHP signal with power optimization between two modulation formats.https://ieeexplore.ieee.org/document/9395588/Underwater optical wireless communicationunderwater equipmentunderwater technologyintensity modulation
collection DOAJ
language English
format Article
sources DOAJ
author Takahiro Kodama
Muhamad Aizat Bin Ahmad Sanusi
Fumiya Kobori
Tomotaka Kimura
Yoshiaki Inoue
Masahiko Jinno
spellingShingle Takahiro Kodama
Muhamad Aizat Bin Ahmad Sanusi
Fumiya Kobori
Tomotaka Kimura
Yoshiaki Inoue
Masahiko Jinno
Comprehensive Analysis of Time-Domain Hybrid PAM for Data-Rate and Distance Adaptive UWOC System
IEEE Access
Underwater optical wireless communication
underwater equipment
underwater technology
intensity modulation
author_facet Takahiro Kodama
Muhamad Aizat Bin Ahmad Sanusi
Fumiya Kobori
Tomotaka Kimura
Yoshiaki Inoue
Masahiko Jinno
author_sort Takahiro Kodama
title Comprehensive Analysis of Time-Domain Hybrid PAM for Data-Rate and Distance Adaptive UWOC System
title_short Comprehensive Analysis of Time-Domain Hybrid PAM for Data-Rate and Distance Adaptive UWOC System
title_full Comprehensive Analysis of Time-Domain Hybrid PAM for Data-Rate and Distance Adaptive UWOC System
title_fullStr Comprehensive Analysis of Time-Domain Hybrid PAM for Data-Rate and Distance Adaptive UWOC System
title_full_unstemmed Comprehensive Analysis of Time-Domain Hybrid PAM for Data-Rate and Distance Adaptive UWOC System
title_sort comprehensive analysis of time-domain hybrid pam for data-rate and distance adaptive uwoc system
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2021-01-01
description The challenge for next-generation underwater optical wireless communication systems is to develop optical transceivers that can operate with low power consumption by maximizing the transmission capacity according to the transmission distance between transmitters and receivers. This study proposes an underwater wireless optical communication (UWOC) system using an optical transceiver with an optimum transmission rate for the deep sea with near-pure water properties. As a method for actualizing an optical transceiver with an optimum transmission rate in a UWOC system, time-domain hybrid pulse amplitude modulation (PAM) (TDHP) using a transmission rate and distance-adaptive intensity modulation/direct detection optical transceiver is considered. In the TDHP method, variable transmission capacity is actualized while changing the generation ratio of two intensity-modulated signals with different noise immunities in the time domain. Three different color laser diodes (LDs), red, blue, and green are used in an underwater channel transmission transceiver that comprises the LD and a photodiode. The maximum transmission distance while changing the incidence of PAM 2 and PAM 4 signals that calibrate the TDHP in a pure transmission line and how the maximum transmission distance changes when the optical transmitter/receiver spatial optical system is altered from the optimum conditions are clarified based on numerical calculation and simulation. To the best knowledge of the authors, there is no other research on data-rate and distance adaptive UWOC system that applies the TDHP signal with power optimization between two modulation formats.
topic Underwater optical wireless communication
underwater equipment
underwater technology
intensity modulation
url https://ieeexplore.ieee.org/document/9395588/
work_keys_str_mv AT takahirokodama comprehensiveanalysisoftimedomainhybridpamfordatarateanddistanceadaptiveuwocsystem
AT muhamadaizatbinahmadsanusi comprehensiveanalysisoftimedomainhybridpamfordatarateanddistanceadaptiveuwocsystem
AT fumiyakobori comprehensiveanalysisoftimedomainhybridpamfordatarateanddistanceadaptiveuwocsystem
AT tomotakakimura comprehensiveanalysisoftimedomainhybridpamfordatarateanddistanceadaptiveuwocsystem
AT yoshiakiinoue comprehensiveanalysisoftimedomainhybridpamfordatarateanddistanceadaptiveuwocsystem
AT masahikojinno comprehensiveanalysisoftimedomainhybridpamfordatarateanddistanceadaptiveuwocsystem
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