Article: An efficient multi-vehicle multi-criteria mission planning and control system for autonomous underwater vehicles Journal: International Journal of Operational Research (IJOR) 2010 Vol.9 No.3 pp.306 - 328 Abstract: In their study, Tavana and Bourgeois (2010) proposed a multi-criteria decision analysis model that considered dynamic and episodic phenomenon on the surface of the ocean and provided specific navigation plans. They showed that the transect for an autonomous underwater vehicle (AUV) includes not only the desired horizontal path, but also the depth range that the vehicle will operate in. They argued that the current models should be extended to include considerations that change vertically, that is, with different ocean depths. They also suggested expansion of the current models to cooperative teams of AUVs and showed that working together will allow underwater vehicles to complete tasks that could not be completed by a single vehicle. This study extends their model by: reducing the number of judgements required to generate the navigation scores within the decision region; considering ocean depth and finding the navigation scores for the ocean surface and interior; and developing a model which derives an optimal allocation of multiple vehicles to various locations within the decision region. The proposed framework is an efficient multi-vehicle multi-criteria mission planning and control system that considers ocean phenomenon on the surface and in the interior and provides an optimal allocation of vehicles with respect to the stated objective and subjective mission goals. Inderscience Publishers - linking academia, business and industry through research

Title: An efficient multi-vehicle multi-criteria mission planning and control system for autonomous underwater vehicles

Authors: Madjid Tavana, Brian S. Bourgeois, Jack Rappaport

Addresses: Management Information Systems, Lindback Distinguished Chair of Information Systems, La Salle University, Philadelphia, PA 19141, USA. ' Naval Research Laboratory, Marine Geosciences Division, Stennis Space Center, Mississippi 39529, USA. ' Operations Management, La Salle University, Philadelphia, PA 19141, USA

Abstract: In their study, Tavana and Bourgeois (2010) proposed a multi-criteria decision analysis model that considered dynamic and episodic phenomenon on the surface of the ocean and provided specific navigation plans. They showed that the transect for an autonomous underwater vehicle (AUV) includes not only the desired horizontal path, but also the depth range that the vehicle will operate in. They argued that the current models should be extended to include considerations that change vertically, that is, with different ocean depths. They also suggested expansion of the current models to cooperative teams of AUVs and showed that working together will allow underwater vehicles to complete tasks that could not be completed by a single vehicle. This study extends their model by: reducing the number of judgements required to generate the navigation scores within the decision region; considering ocean depth and finding the navigation scores for the ocean surface and interior; and developing a model which derives an optimal allocation of multiple vehicles to various locations within the decision region. The proposed framework is an efficient multi-vehicle multi-criteria mission planning and control system that considers ocean phenomenon on the surface and in the interior and provides an optimal allocation of vehicles with respect to the stated objective and subjective mission goals.

Keywords: AUV navigation; autonomous underwater vehicles; mission planning; mission control; fuzzy sets; multicriteria decision analysis; MCDA; multi-vehicle systems; ANP; analytical network process; ocean depth; navigation scores; ocean surface; vehicle allocation; modelling; fuzzy logic.

DOI: 10.1504/IJOR.2010.035523

International Journal of Operational Research, 2010 Vol.9 No.3, pp.306 - 328

Published online: 30 Sep 2010 *

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Title: An efficient multi-vehicle multi-criteria mission planning and control system for autonomous underwater vehicles

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