Internet of underwater things and big marine data analytics – a comprehensive survey
Internet of underwater things and big marine data analytics – a comprehensive survey
The Internet of Underwater Things (IoUT) is an emerging communication ecosystem developed for connecting underwater objects in maritime and underwater environments. The IoUT technology is intricately linked with intelligent boats and ships, smart shores and oceans, automatic marine transportations, positioning and navigation, underwater exploration, disaster prediction and prevention, as well as with intelligent monitoring and security. The IoUT has an influence at various scales ranging from a small scientific observatory, to a midsized harbor, and to covering global oceanic trade. The network architecture of IoUT is intrinsically heterogeneous and should be sufficiently resilient to operate in harsh environments. This creates major challenges in terms of underwater communications, whilst relying on limited energy resources. Additionally, the volume, velocity, and variety of data produced by sensors, hydrophones, and cameras in IoUT is enormous, giving rise to the concept of Big Marine Data (BMD), which has its own processing challenges. Hence, conventional data processing techniques will falter, and bespoke Machine Learning (ML) solutions have to be employed for automatically learning the specific BMD behavior and features facilitating knowledge extraction and decision support. The motivation of this paper is to comprehensively survey the IoUT, BMD, and their synthesis. It also aims for exploring the nexus of BMD with ML. We set out from underwater data collection and then discuss the family of IoUT data communication techniques with an emphasis on the state-of-the-art research challenges. We then review the suite of ML solutions suitable for BMD handling and analytics. We treat the subject deductively from an educational perspective, critically appraising the material surveyed. Accordingly, the reader will become familiar with the pivotal issues of IoUT and BMD processing, whilst gaining an insight into the state-of-theart applications, tools, and techniques. Finally, we analyze of the architectural challenges of the IoUT, followed by proposing a range of promising direction for research and innovation in the broad areas of IoUT and BMD. Our hope is to inspire researchers, engineers, data scientists, and governmental bodies to further progress the field, to develop new tools and techniques, as well as to make informed decisions and set regulations related to the maritime and underwater environments around the world.
Jahanbakht, Mohammad
a802ff54-d2ae-478d-9702-6207a48e8cab
Xiang, Wei
d53e5b56-ad11-4264-9cb8-10c9d8b9d434
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Azghadi, Mostafa Rahimi
25ff0587-77b7-4998-9f7f-3d131ced9b8c
Jahanbakht, Mohammad
a802ff54-d2ae-478d-9702-6207a48e8cab
Xiang, Wei
d53e5b56-ad11-4264-9cb8-10c9d8b9d434
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Azghadi, Mostafa Rahimi
25ff0587-77b7-4998-9f7f-3d131ced9b8c
Jahanbakht, Mohammad, Xiang, Wei, Hanzo, Lajos and Azghadi, Mostafa Rahimi
(2021)
Internet of underwater things and big marine data analytics – a comprehensive survey.
IEEE Communications Surveys & Tutorials.
(In Press)
Abstract
The Internet of Underwater Things (IoUT) is an emerging communication ecosystem developed for connecting underwater objects in maritime and underwater environments. The IoUT technology is intricately linked with intelligent boats and ships, smart shores and oceans, automatic marine transportations, positioning and navigation, underwater exploration, disaster prediction and prevention, as well as with intelligent monitoring and security. The IoUT has an influence at various scales ranging from a small scientific observatory, to a midsized harbor, and to covering global oceanic trade. The network architecture of IoUT is intrinsically heterogeneous and should be sufficiently resilient to operate in harsh environments. This creates major challenges in terms of underwater communications, whilst relying on limited energy resources. Additionally, the volume, velocity, and variety of data produced by sensors, hydrophones, and cameras in IoUT is enormous, giving rise to the concept of Big Marine Data (BMD), which has its own processing challenges. Hence, conventional data processing techniques will falter, and bespoke Machine Learning (ML) solutions have to be employed for automatically learning the specific BMD behavior and features facilitating knowledge extraction and decision support. The motivation of this paper is to comprehensively survey the IoUT, BMD, and their synthesis. It also aims for exploring the nexus of BMD with ML. We set out from underwater data collection and then discuss the family of IoUT data communication techniques with an emphasis on the state-of-the-art research challenges. We then review the suite of ML solutions suitable for BMD handling and analytics. We treat the subject deductively from an educational perspective, critically appraising the material surveyed. Accordingly, the reader will become familiar with the pivotal issues of IoUT and BMD processing, whilst gaining an insight into the state-of-theart applications, tools, and techniques. Finally, we analyze of the architectural challenges of the IoUT, followed by proposing a range of promising direction for research and innovation in the broad areas of IoUT and BMD. Our hope is to inspire researchers, engineers, data scientists, and governmental bodies to further progress the field, to develop new tools and techniques, as well as to make informed decisions and set regulations related to the maritime and underwater environments around the world.
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Accepted/In Press date: 14 January 2021
Identifiers
Local EPrints ID: 446331
URI: http://eprints.soton.ac.uk/id/eprint/446331
ISSN: 1553-877X
PURE UUID: 76b308cd-bf7b-4c05-b732-edb8e03f1623
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Date deposited: 04 Feb 2021 17:33
Last modified: 17 Mar 2024 02:35
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Author:
Mohammad Jahanbakht
Author:
Wei Xiang
Author:
Lajos Hanzo
Author:
Mostafa Rahimi Azghadi
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