Marine environmental monitoring with unmanned vehicle platforms: Present applications and future prospects

Basic monitoring of the marine environment is crucial for the early warning and assessment of marine hydrometeorological conditions, climate change, and ecosystem disasters. In recent years, many marine environmental monitoring platforms have been established, such as offshore platforms, ships, or s...

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Published inThe Science of the total environment Vol. 858; no. Pt 1; p. 159741
Main Authors Yuan, Shuyun, Li, Ying, Bao, Fangwen, Xu, Haoxiang, Yang, Yuping, Yan, Qiushi, Zhong, Shuqiao, Yin, Haoyang, Xu, Jiajun, Huang, Ziwei, Lin, Jian
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.02.2023
Subjects
climate change
data collection
ecosystems
Glider
hydrometeorology
marine environment
Marine environmental monitoring
marine pollution
marine science
Ocean observation system
Remote sensing
satellites
Unmanned aerial vehicle
Unmanned ship
Unmanned surface vehicle
Unmanned surface vehicle
Unmanned aerial vehicle
Ocean observation system
Unmanned ship
Glider
Marine environmental monitoring
Remote sensing
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Abstract Basic monitoring of the marine environment is crucial for the early warning and assessment of marine hydrometeorological conditions, climate change, and ecosystem disasters. In recent years, many marine environmental monitoring platforms have been established, such as offshore platforms, ships, or sensors placed on specially designed buoys or submerged marine structures. These platforms typically use a variety of sensors to provide high-quality observations, while they are limited by low spatial resolution and high cost during data acquisition. Satellite remote sensing allows monitoring over a larger ocean area; however, it is susceptible to cloud contamination and atmospheric effects that subject the results to large uncertainties. Unmanned vehicles have become more widely used as platforms in marine science and ocean engineering in recent years due to their ease of deployment, mobility, and the low cost involved in data acquisition. Researchers can acquire data according to their schedules and convenience, offering significant improvements over those obtained by traditional platforms. This study presents the state-of-the-art research on available unmanned vehicle observation platforms, including unmanned aerial vehicles (UAVs), underwater gliders (UGs), unmanned surface vehicles (USVs), and unmanned ships (USs), for marine environmental monitoring, and compares them with satellite remote sensing. The recent applications in marine environments have focused on marine biochemical and ecosystem features, marine physical features, marine pollution, and marine aerosols monitoring, and their integration with other products are also analysed. Additionally, the prospects of future ocean observation systems combining unmanned vehicle platforms (UVPs), global and regional autonomous platform networks, and remote sensing data are discussed. [Display omitted] •Presented the state-of-the-art of available unmanned vehicle platforms technology•Analysed unmanned vehicle platforms applications in marine environments monitoring•Discussed the challenging and the of synergistic application of multiple platforms
AbstractList Basic monitoring of the marine environment is crucial for the early warning and assessment of marine hydrometeorological conditions, climate change, and ecosystem disasters. In recent years, many marine environmental monitoring platforms have been established, such as offshore platforms, ships, or sensors placed on specially designed buoys or submerged marine structures. These platforms typically use a variety of sensors to provide high-quality observations, while they are limited by low spatial resolution and high cost during data acquisition. Satellite remote sensing allows monitoring over a larger ocean area; however, it is susceptible to cloud contamination and atmospheric effects that subject the results to large uncertainties. Unmanned vehicles have become more widely used as platforms in marine science and ocean engineering in recent years due to their ease of deployment, mobility, and the low cost involved in data acquisition. Researchers can acquire data according to their schedules and convenience, offering significant improvements over those obtained by traditional platforms. This study presents the state-of-the-art research on available unmanned vehicle observation platforms, including unmanned aerial vehicles (UAVs), underwater gliders (UGs), unmanned surface vehicles (USVs), and unmanned ships (USs), for marine environmental monitoring, and compares them with satellite remote sensing. The recent applications in marine environments have focused on marine biochemical and ecosystem features, marine physical features, marine pollution, and marine aerosols monitoring, and their integration with other products are also analysed. Additionally, the prospects of future ocean observation systems combining unmanned vehicle platforms (UVPs), global and regional autonomous platform networks, and remote sensing data are discussed.
Basic monitoring of the marine environment is crucial for the early warning and assessment of marine hydrometeorological conditions, climate change, and ecosystem disasters. In recent years, many marine environmental monitoring platforms have been established, such as offshore platforms, ships, or sensors placed on specially designed buoys or submerged marine structures. These platforms typically use a variety of sensors to provide high-quality observations, while they are limited by low spatial resolution and high cost during data acquisition. Satellite remote sensing allows monitoring over a larger ocean area; however, it is susceptible to cloud contamination and atmospheric effects that subject the results to large uncertainties. Unmanned vehicles have become more widely used as platforms in marine science and ocean engineering in recent years due to their ease of deployment, mobility, and the low cost involved in data acquisition. Researchers can acquire data according to their schedules and convenience, offering significant improvements over those obtained by traditional platforms. This study presents the state-of-the-art research on available unmanned vehicle observation platforms, including unmanned aerial vehicles (UAVs), underwater gliders (UGs), unmanned surface vehicles (USVs), and unmanned ships (USs), for marine environmental monitoring, and compares them with satellite remote sensing. The recent applications in marine environments have focused on marine biochemical and ecosystem features, marine physical features, marine pollution, and marine aerosols monitoring, and their integration with other products are also analysed. Additionally, the prospects of future ocean observation systems combining unmanned vehicle platforms (UVPs), global and regional autonomous platform networks, and remote sensing data are discussed.Basic monitoring of the marine environment is crucial for the early warning and assessment of marine hydrometeorological conditions, climate change, and ecosystem disasters. In recent years, many marine environmental monitoring platforms have been established, such as offshore platforms, ships, or sensors placed on specially designed buoys or submerged marine structures. These platforms typically use a variety of sensors to provide high-quality observations, while they are limited by low spatial resolution and high cost during data acquisition. Satellite remote sensing allows monitoring over a larger ocean area; however, it is susceptible to cloud contamination and atmospheric effects that subject the results to large uncertainties. Unmanned vehicles have become more widely used as platforms in marine science and ocean engineering in recent years due to their ease of deployment, mobility, and the low cost involved in data acquisition. Researchers can acquire data according to their schedules and convenience, offering significant improvements over those obtained by traditional platforms. This study presents the state-of-the-art research on available unmanned vehicle observation platforms, including unmanned aerial vehicles (UAVs), underwater gliders (UGs), unmanned surface vehicles (USVs), and unmanned ships (USs), for marine environmental monitoring, and compares them with satellite remote sensing. The recent applications in marine environments have focused on marine biochemical and ecosystem features, marine physical features, marine pollution, and marine aerosols monitoring, and their integration with other products are also analysed. Additionally, the prospects of future ocean observation systems combining unmanned vehicle platforms (UVPs), global and regional autonomous platform networks, and remote sensing data are discussed.
Basic monitoring of the marine environment is crucial for the early warning and assessment of marine hydrometeorological conditions, climate change, and ecosystem disasters. In recent years, many marine environmental monitoring platforms have been established, such as offshore platforms, ships, or sensors placed on specially designed buoys or submerged marine structures. These platforms typically use a variety of sensors to provide high-quality observations, while they are limited by low spatial resolution and high cost during data acquisition. Satellite remote sensing allows monitoring over a larger ocean area; however, it is susceptible to cloud contamination and atmospheric effects that subject the results to large uncertainties. Unmanned vehicles have become more widely used as platforms in marine science and ocean engineering in recent years due to their ease of deployment, mobility, and the low cost involved in data acquisition. Researchers can acquire data according to their schedules and convenience, offering significant improvements over those obtained by traditional platforms. This study presents the state-of-the-art research on available unmanned vehicle observation platforms, including unmanned aerial vehicles (UAVs), underwater gliders (UGs), unmanned surface vehicles (USVs), and unmanned ships (USs), for marine environmental monitoring, and compares them with satellite remote sensing. The recent applications in marine environments have focused on marine biochemical and ecosystem features, marine physical features, marine pollution, and marine aerosols monitoring, and their integration with other products are also analysed. Additionally, the prospects of future ocean observation systems combining unmanned vehicle platforms (UVPs), global and regional autonomous platform networks, and remote sensing data are discussed. [Display omitted] •Presented the state-of-the-art of available unmanned vehicle platforms technology•Analysed unmanned vehicle platforms applications in marine environments monitoring•Discussed the challenging and the of synergistic application of multiple platforms
ArticleNumber 159741
Author Yang, Yuping
Li, Ying
Lin, Jian
Bao, Fangwen
Yin, Haoyang
Huang, Ziwei
Yuan, Shuyun
Yan, Qiushi
Xu, Jiajun
Xu, Haoxiang
Zhong, Shuqiao
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  surname: Yuan
  fullname: Yuan, Shuyun
  organization: School of Environment, Harbin Institute of Technology, Harbin 150059, China
– sequence: 2
  givenname: Ying
  surname: Li
  fullname: Li, Ying
  email: liy66@sustech.edu.cn
  organization: Center for Oceanic and Atmospheric Science at SUSTech (COAST), Southern University of Science and Technology, Shenzhen, China
– sequence: 3
  givenname: Fangwen
  surname: Bao
  fullname: Bao, Fangwen
  email: baofw@sustech.edu.cn
  organization: Center for Oceanic and Atmospheric Science at SUSTech (COAST), Southern University of Science and Technology, Shenzhen, China
– sequence: 4
  givenname: Haoxiang
  surname: Xu
  fullname: Xu, Haoxiang
  organization: Department of Ocean Sciences and Engineering, Southern University of Science and Technology, Shenzhen, China
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  givenname: Yuping
  surname: Yang
  fullname: Yang, Yuping
  organization: Department of Ocean Sciences and Engineering, Southern University of Science and Technology, Shenzhen, China
– sequence: 6
  givenname: Qiushi
  surname: Yan
  fullname: Yan, Qiushi
  organization: Department of Ocean Sciences and Engineering, Southern University of Science and Technology, Shenzhen, China
– sequence: 7
  givenname: Shuqiao
  surname: Zhong
  fullname: Zhong, Shuqiao
  organization: Department of Ocean Sciences and Engineering, Southern University of Science and Technology, Shenzhen, China
– sequence: 8
  givenname: Haoyang
  surname: Yin
  fullname: Yin, Haoyang
  organization: Department of Ocean Sciences and Engineering, Southern University of Science and Technology, Shenzhen, China
– sequence: 9
  givenname: Jiajun
  surname: Xu
  fullname: Xu, Jiajun
  organization: Department of Ocean Sciences and Engineering, Southern University of Science and Technology, Shenzhen, China
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  givenname: Ziwei
  surname: Huang
  fullname: Huang, Ziwei
  organization: Department of Ocean Sciences and Engineering, Southern University of Science and Technology, Shenzhen, China
– sequence: 11
  givenname: Jian
  surname: Lin
  fullname: Lin, Jian
  organization: Department of Ocean Sciences and Engineering, Southern University of Science and Technology, Shenzhen, China
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Copyright © 2022. Published by Elsevier B.V.
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Issue Pt 1
Keywords Unmanned surface vehicle
Unmanned aerial vehicle
Ocean observation system
Unmanned ship
Glider
Marine environmental monitoring
Remote sensing
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Snippet Basic monitoring of the marine environment is crucial for the early warning and assessment of marine hydrometeorological conditions, climate change, and...
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SubjectTerms climate change
data collection
ecosystems
Glider
hydrometeorology
marine environment
Marine environmental monitoring
marine pollution
marine science
Ocean observation system
Remote sensing
satellites
Unmanned aerial vehicle
Unmanned ship
Unmanned surface vehicle
Title Marine environmental monitoring with unmanned vehicle platforms: Present applications and future prospects
URI https://dx.doi.org/10.1016/j.scitotenv.2022.159741
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