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An ontology-based approach to fault tolerant mission execution for autonomous platforms
Lane, D.; Brown, K.; Petillot, Y.; Miguelanez, E.; Patron, P. (2012). An ontology-based approach to fault tolerant mission execution for autonomous platforms, in: Seto, M.L. (2013). Marine robot autonomy. pp. 225-255. https://dx.doi.org/10.1007/978-1-4614-5659-9_5
In: Seto, M.L. (2013). Marine robot autonomy. Springer Science+Business Media, Inc: New York. ISBN 978-1-4614-5658-2. 382 pp. https://dx.doi.org/10.1007/978-1-4614-5659-9, more
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Author keywords
    Situation Awareness, Autonomous Underwater Vehicle, Mission Plan, Status Monitor, Uniform Resource Identifier
Authors  Top 
  • Lane, D.
  • Brown, K.
  • Petillot, Y.
  • Miguelanez, E.
  • Patron, P.
Abstract
    Autonomous underwater vehicles (AUVs) have become a standard tool for data gathering and intervention in security, offshore and marine science applications. In these environments, mission effectiveness directly depends on vehicle’s operability. Operability underlies the vehicle’s ultimate availability. Two main vehicle characteristics can improve operability: reliability depends on the internal hardware components of the vehicle and survivability, a concept that is closely related with vehicle failures due to external factors or damages.
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