Title: A multiple criteria decision support system for autonomous underwater vehicle mission planning and control

Authors: Madjid Tavana, Brian S. Bourgeois

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, MS 39529, USA

Abstract: The growing use of autonomous air, surface, ground and underwater systems is continually demonstrating new military and commercial possibilities and applications. The state of the art in the planning and control of autonomous underwater vehicles (AUVs) is largely precarious because AUVs provide infrequent feedback, operate autonomously for long periods of time and yet have little knowledge of their dynamic environment. Consequently, mission planning and control is typically conducted based on human expert knowledge of vehicle capabilities, some level of observed environmental conditions and ad hoc optimisation with little assistance from computers. While the human expert offers a significant ability to mentally process data, the result typically lacks numeric and quantitative analysis of alternatives. Navigation of AUVs in the complex ocean environment involves time dependent dynamics, resulting in a problem that is computationally prohibitive for the use of brute force optimisation techniques. Although some research has been conducted for specific types of missions, and |greedy| global-optimisation approaches have been investigated, no systematic and coherent approach to the requirement exists. We propose a dynamic multiple criteria decision support system that considers dynamic and episodic ocean phenomenon to provide reasonable and in-context recommendations with respect to the stated objective and subjective mission goals. Multi-criteria decision analysis, analytic network process and fuzzy sets are used in the model to reduce the vehicle routing solution space and maximise time-on station in adverse environments. The proposed system can be an added hierarchical layer on the top of a mission planning system currently under development by the United States Navy.

Keywords: ANP; analytical network process; AUV; autonomous underwater vehicles; DSS; decision support systems; fuzzy sets; geographical information systems; GIS; mission planning; mission control; MCDA; multi-criteria decision analysis; vehicle routing; United States Navy.

DOI: 10.1504/IJOR.2010.030804

International Journal of Operational Research, 2010 Vol.7 No.2, pp.216 - 239

Available online: 06 Jan 2010 *

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