Rapid environmental assessment with autonomous underwater vehicles - Examples from HUGIN operations

被引:28
|
作者
Hagen, Per Espen [1 ]
Storkersen, Nils [1 ]
Marthinsen, Bjorn-Erik [2 ]
Sten, Geir [3 ]
Vestgard, Karstein [4 ]
机构
[1] Norwegian Def Res Establishment, Maritime Syst Div, NO-2027 Kjeller, Norway
[2] Royal Norwegian Navy Mine Warfare Flotilla, N-5886 Bergen, Norway
[3] Norwegian Def Logist Org, N-5886 Bergen, Norway
[4] Kongsberg Maritime, NO-3191 Horien, Norway
来源
JOURNAL OF MARINE SYSTEMS | 2008年 / 69卷 / 1-2期
关键词
autonomous underwater vehicles; rapid environmental assessment; digital terrain mapping;
D O I
10.1016/j.jmarsys.2007.02.011
中图分类号
P [天文学、地球科学];
学科分类号
07 ;
摘要
The current generations of the HUGIN autonomous underwater vehicles (AUVs) have been used in a number of Rapid Environmental Assessment (REA) missions over the past few years, including participation in several national and international military exercises and operations. This article discusses some of the main advantages and limitations of using AUVs in REA operations. This is followed by examples from actual operations that illustrate the choices and trade-offs that must be made. The article aims to demonstrate that AUVs are mature enough for many types of REA operations. (c) 2007 Elsevier B.V. All rights reserved.
引用
收藏
页码:137 / 145
页数:9
相关论文
共 50 条
  • [41] Assessment of Environmental Impacts on Health: Examples from the Pacific Basin
    Jagals, Paul
    Kim, Injeong
    Brereton, Claire
    Lau, Colleen L.
    ANNALS OF GLOBAL HEALTH, 2022, 88 (01):
  • [42] Exploration geochemistry in environmental impact assessment examples from Greece
    Demetriades, A
    Stavrakis, P
    VergouVichou, K
    ENGINEERING GEOLOGY AND THE ENVIRONMENT, VOLS 1-3, 1997, : 1757 - 1762
  • [43] Unlocking the power of combined autonomous operations with underwater and surface vehicles: success with a deep-water survey AUV and USV mothership
    Proctor, Alison A.
    Zarayskaya, Yulia
    Bazhenova, Evgenia
    Sumiyoshi, Masanao
    Wigley, Rochelle
    Roperez, Jaya
    Zwolak, Karolina
    Sattiabaruth, Seeboruth
    Sade, Hadar
    Tinmouth, Neil
    Simpson, Benjamin
    Kristoffersen, Stian Michael
    2018 OCEANS - MTS/IEEE KOBE TECHNO-OCEANS (OTO), 2018,
  • [44] TOWARDS AUTONOMOUS, OPTIMAL WATER SAMPLING WITH AERIAL AND SURFACE VEHICLES FOR RAPID WATER QUALITY ASSESSMENT
    Nguyen, Anh
    Ore, John -Paul
    Castro-Bolinaga, Celso
    Hall, Steven G.
    Young, Sierra
    JOURNAL OF THE ASABE, 2024, 67 (01): : 91 - 98
  • [45] Self-powered autonomous underwater vehicles: results from a gyroscopic energy scavenging prototype
    Townsend, Nicholas C.
    IET RENEWABLE POWER GENERATION, 2016, 10 (08) : 1078 - 1086
  • [46] Unsupervised Detection of Mine-Like Objects in Seabed Imagery From Autonomous Underwater Vehicles
    Chapple, Philip B.
    OCEANS 2009, VOLS 1-3, 2009, : 980 - 985
  • [47] Mission Planning and Safety Assessment for Pipeline Inspection Using Autonomous Underwater Vehicles: A Framework based on Behavior Trees
    Aubard, Martin
    Quijano, Sergio
    Alvarez-Tunon, Olaya
    Antal, Laszlo
    Costa, Maria
    Brodskiy, Yury
    OCEANS 2024 - SINGAPORE, 2024,
  • [48] From da Vinci to cybersecurity: tracing the evolution of autonomous vehicles and ensuring safe platooning operations
    Noon Hussein
    Discover Mechanical Engineering, 3 (1):
  • [49] Direction of Arrival Estimation and Highlighting Characteristics of Testing Wideband Echoes from Multiple Autonomous Underwater Vehicles
    Yin, Xiaofeng
    Zhang, Peizhen
    Zhou, Guangbo
    Feng, Ziyi
    SENSORS, 2023, 23 (19)
  • [50] The role of environmental concern in the public acceptance of autonomous electric vehicles: A survey from China
    Wu, Jingwen
    Liao, Hua
    Wang, Jin-Wei
    Chen, Tianqi
    TRANSPORTATION RESEARCH PART F-TRAFFIC PSYCHOLOGY AND BEHAVIOUR, 2019, 60 : 37 - 46
12345