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Underwater optical wireless communication with subcarrier intensity modulation: an experimental demonstration

Underwater optical wireless communication with subcarrier intensity modulation: an experimental demonstration
Underwater optical wireless communication with subcarrier intensity modulation: an experimental demonstration
This paper presents an experimental study of an underwater optical wireless communications system (UOWC). The potential of UOWC and how it can operate alongside acoustic based communications in a hybrid system is outlined. The channel characteristics, in terms of the inherent optical properties of water, are described and the impact on data transmission assessed. We present data transmission with a blue laser diode using both on-off keying (OOK) and subcarrier intensity modulation (SIM). These modulation schemes are evaluated in both still and turbulent water, demonstrating the inherent resilience to turbulence of SIM as well as the impact of turbulence on signal transmission. We show a maximum data rate in the range of Gbps, showing the potential for high speed underwater communications links using UOWC.
1939-800X
Popoola, Wasiu O.
ff4a45f9-31f0-4304-b20e-66741d04ea4b
Geldard, Callum
03143d05-32ad-4270-977d-256ff63c321b
Guler, Egecan
caac4608-7ea5-46c0-a62d-8ddf5fceb5d7
Hamilton, Alexander
73418485-6e91-4151-9a21-d6219807a2d7
Popoola, Wasiu O.
ff4a45f9-31f0-4304-b20e-66741d04ea4b
Geldard, Callum
03143d05-32ad-4270-977d-256ff63c321b
Guler, Egecan
caac4608-7ea5-46c0-a62d-8ddf5fceb5d7
Hamilton, Alexander
73418485-6e91-4151-9a21-d6219807a2d7

Popoola, Wasiu O., Geldard, Callum, Guler, Egecan and Hamilton, Alexander (2021) Underwater optical wireless communication with subcarrier intensity modulation: an experimental demonstration. Proceedings of Meetings on Acoustics, 44, [032001]. (doi:10.1121/2.0001458).

Record type: Article

Abstract

This paper presents an experimental study of an underwater optical wireless communications system (UOWC). The potential of UOWC and how it can operate alongside acoustic based communications in a hybrid system is outlined. The channel characteristics, in terms of the inherent optical properties of water, are described and the impact on data transmission assessed. We present data transmission with a blue laser diode using both on-off keying (OOK) and subcarrier intensity modulation (SIM). These modulation schemes are evaluated in both still and turbulent water, demonstrating the inherent resilience to turbulence of SIM as well as the impact of turbulence on signal transmission. We show a maximum data rate in the range of Gbps, showing the potential for high speed underwater communications links using UOWC.

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More information

Accepted/In Press date: 30 August 2021
Published date: 20 September 2021
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Identifiers

Local EPrints ID: 489047
URI: http://eprints.soton.ac.uk/id/eprint/489047
DOI: doi:10.1121/2.0001458
ISSN: 1939-800X
PURE UUID: d33b5cc2-fd66-43d3-9c01-711f4e1efd59
ORCID for Alexander Hamilton: ORCID iD orcid.org/0000-0003-0604-6563

Catalogue record

Date deposited: 11 Apr 2024 17:01
Last modified: 12 Apr 2024 01:49

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Contributors

Author: Wasiu O. Popoola
Author: Callum Geldard
Author: Egecan Guler
Author: Alexander Hamilton ORCID iD

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