Reliability of two REMUS-100 AUVs based on fault log analysis and elicited expert judgment
Reliability of two REMUS-100 AUVs based on fault log analysis and elicited expert judgment
Reliability is especially important for autonomous
underwater vehicles (AUVs) that have made the transition
to operational use. However, in contrast to the unmanned
air vehicle community, there has been little sharing in the
open literature of detailed fault histories of commercial
AUVs from which an assessment of their reliability can be
made. In this paper, we declare the fault history of two
REMUS-100 AUVs manufactured by Hydroid Inc. and
operated by the Center for Coastal Marine Sciences at
California Polytechnic State University. The data set
contains the faults and incidents recorded from 186
missions between 5 November 2003 and 14 January 2009.
Interaction between the faults or incidents with the AUV
and the operating environment complicate matters when
it comes to estimating probability of loss. Through a
formal process of eliciting expert judgment the paper
provides optimistic and pessimistic estimates of loss of
the REMUS vehicles in open water, coastal, under sea ice
and under ice shelf operations. Vehicle-specific risk
mitigation methods are explored, and recommendations
made for reviewing the fault history data using
behavioural aggregation through interaction among a
group of experts rather than simple mathematical
aggregation as in this paper.
[12p]
Autonomous Undersea Systems Institute
Griffiths, Gwyn
a0447dd5-c7cd-4bc9-b945-0da7ab236a08
Brito, Mario
82e798e7-e032-4841-992e-81c6f13a9e6c
Robbins, Ian
d69f9eb6-6364-46d3-9c88-cd44de4c210c
Moline, Mark
c58645e4-c486-47c3-bce0-8ce325593c7d
2009
Griffiths, Gwyn
a0447dd5-c7cd-4bc9-b945-0da7ab236a08
Brito, Mario
82e798e7-e032-4841-992e-81c6f13a9e6c
Robbins, Ian
d69f9eb6-6364-46d3-9c88-cd44de4c210c
Moline, Mark
c58645e4-c486-47c3-bce0-8ce325593c7d
Griffiths, Gwyn, Brito, Mario, Robbins, Ian and Moline, Mark
(2009)
Reliability of two REMUS-100 AUVs based on fault log analysis and elicited expert judgment.
In Proceedings of the International Symposium on Unmanned Untethered Submersible Technology (UUST 2009), Durham, New Hampshire, 23-26 August 2009.
Autonomous Undersea Systems Institute.
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
Reliability is especially important for autonomous
underwater vehicles (AUVs) that have made the transition
to operational use. However, in contrast to the unmanned
air vehicle community, there has been little sharing in the
open literature of detailed fault histories of commercial
AUVs from which an assessment of their reliability can be
made. In this paper, we declare the fault history of two
REMUS-100 AUVs manufactured by Hydroid Inc. and
operated by the Center for Coastal Marine Sciences at
California Polytechnic State University. The data set
contains the faults and incidents recorded from 186
missions between 5 November 2003 and 14 January 2009.
Interaction between the faults or incidents with the AUV
and the operating environment complicate matters when
it comes to estimating probability of loss. Through a
formal process of eliciting expert judgment the paper
provides optimistic and pessimistic estimates of loss of
the REMUS vehicles in open water, coastal, under sea ice
and under ice shelf operations. Vehicle-specific risk
mitigation methods are explored, and recommendations
made for reviewing the fault history data using
behavioural aggregation through interaction among a
group of experts rather than simple mathematical
aggregation as in this paper.
Text
UUST09_Griffiths_et_al_Reliability_of_REMUS[2].pdf
- Version of Record
More information
Published date: 2009
Additional Information:
Proceedings issued on CDROM
Venue - Dates:
UUST 2009, Durham NH, USA, 2009-08-23 - 2009-08-26
Identifiers
Local EPrints ID: 69184
URI: http://eprints.soton.ac.uk/id/eprint/69184
PURE UUID: b320b5ec-30ea-4935-a031-41b9d979a406
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Date deposited: 22 Oct 2009
Last modified: 14 Mar 2024 02:54
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Contributors
Author:
Gwyn Griffiths
Author:
Ian Robbins
Author:
Mark Moline
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