TY - JOUR
T1 - Autonomous underwater vehicles
T2 - Future platforms for fisheries acoustics
AU - Fernandes, Paul G.
AU - Stevenson, Pete
AU - Brierley, Andrew S.
AU - Armstrong, Frederick
AU - Simmonds, E. John
N1 - Funding Information:
The impetus for this article came from the USIPS project, which was funded by the UK's NERC under a grant (#GST/02/2151) to A. S. Brierley, P. G. Fernandes, and M. Brandon. We thank all those involved in USIPS, but in particular the members of SOC's Autosub team (namely Nick Millard, Steve McPhail, Mark Squires, Miles Pebody, and James Perret); Gwynn Griffiths (SOC); Doug Bone (BAS); Chris Hall and his engineering team (FRS MLA); and the Master, officers and crew of the RV Scotia and RRS James Clark Ross, respectively .
PY - 2003
Y1 - 2003
N2 - Autonomous underwater vehicles (AUVs) are unmanned submersibles that can be pre-programmed to navigate in three dimensions under water. The technological advances required for reliable deployment, mission control, performance, and recovery of AUVs have developed considerably over the past 10 years. Currently, there are several vehicles operating successfully in the offshore industries as well as in the applied and academic oceanographic sciences. This article reviews the application of AUVs to fisheries- and plankton-acoustics research. Specifications of the main AUVs currently in operation are given. Compared to traditional platforms for acoustic instruments, AUVs can sample previously impenetrable environments such as the sea surface, the deep sea, and under-sea ice. Furthermore, AUVs are typically small, quiet, and have the potential to operate at low cost and be unconstrained by the vagaries of weather. Examples of how these traits may be utilized in fisheries-acoustics science are given with reference to previous work in the North Sea and Southern Ocean and to potential future applications. Concurrent advances in multi-beam sonar technology and species identification, using multi-frequency and broadband sonars, will further enhance the utility of AUVs for fisheries acoustics. However, before many of the more prospective applications can be accomplished, advances in power-source technology are required to increase the range of operation. The paper ends by considering developments that may turn AUVs from objects sometimes perceived as science fiction into instruments used routinely to gather scientific facts. Crown
AB - Autonomous underwater vehicles (AUVs) are unmanned submersibles that can be pre-programmed to navigate in three dimensions under water. The technological advances required for reliable deployment, mission control, performance, and recovery of AUVs have developed considerably over the past 10 years. Currently, there are several vehicles operating successfully in the offshore industries as well as in the applied and academic oceanographic sciences. This article reviews the application of AUVs to fisheries- and plankton-acoustics research. Specifications of the main AUVs currently in operation are given. Compared to traditional platforms for acoustic instruments, AUVs can sample previously impenetrable environments such as the sea surface, the deep sea, and under-sea ice. Furthermore, AUVs are typically small, quiet, and have the potential to operate at low cost and be unconstrained by the vagaries of weather. Examples of how these traits may be utilized in fisheries-acoustics science are given with reference to previous work in the North Sea and Southern Ocean and to potential future applications. Concurrent advances in multi-beam sonar technology and species identification, using multi-frequency and broadband sonars, will further enhance the utility of AUVs for fisheries acoustics. However, before many of the more prospective applications can be accomplished, advances in power-source technology are required to increase the range of operation. The paper ends by considering developments that may turn AUVs from objects sometimes perceived as science fiction into instruments used routinely to gather scientific facts. Crown
KW - Autonomous underwater vehicles
KW - Echosounders
KW - Power sources
KW - Sonar
UR - http://www.scopus.com/inward/record.url?scp=0038575678&partnerID=8YFLogxK
U2 - 10.1016/S1054-3139(03)00038-9
DO - 10.1016/S1054-3139(03)00038-9
M3 - Article
AN - SCOPUS:0038575678
SN - 1054-3139
VL - 60
SP - 684
EP - 691
JO - ICES Journal of Marine Science
JF - ICES Journal of Marine Science
IS - 3
ER -