Cooperative Localization for Autonomous Underwater Vehicles
Author(s)
Bahr, Alexander; Leonard, John Joseph; Fallon, Maurice Francis
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This paper describes an algorithm for distributed acoustic navigation for Autonomous Underwater Vehicles
(AUVs). Whereas typical AUV navigation systems utilize pre-calibrated arrays of static transponders, our work
seeks to create a fully mobile network of AUVs that perform acoustic ranging and data exchange with one another to
achieve cooperative positioning for extended duration missions over large areas. The algorithm enumerates possible
solutions for the AUV trajectory based on dead-reckoning and range-only measurements provided by acoustic modems
that are mounted on each vehicle, and chooses the trajectory via minimization of a cost function based on these
constraints. The resulting algorithm is computationally efficient, meets the strict bandwidth requirements of available
AUV modems, and has potential to scale well to networks of large numbers of vehicles. The method has undergone
extensive experimentation, and results from three different scenarios are reported in this paper, each of which utilizes
MIT SCOUT Autonomous Surface Craft (ASC) as convenient platforms for testing. In the first experiment, we utilize
three ASCs, each equipped with a Woods Hole acoustic modem, as surrogates for AUVs. In this scenario, two ASCs
serve as Communication/Navigation Aids (CNAs) for a third ASC that computes its position based exclusively on
GPS positions of the CNAs and acoustic range measurements between platforms. In the second scenario, an undersea
glider is used in conjunction with two ASCs serving as CNAs. Finally, in the third experiment, a Bluefin12 AUV
serves as the target vehicle. All three experiments demonstrate the successful operation of the technique with real
ocean data.
Date issued
2009-06Department
Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory; Massachusetts Institute of Technology. Department of Mechanical EngineeringJournal
International Journal of Robotics Research
Publisher
Sage Publications
Citation
Bahr, Alexander, John J. Leonard, and Maurice F. Fallon. “Cooperative Localization for Autonomous Underwater Vehicles.” The International Journal of Robotics Research 28.6 (2009): 714 -728.
Version: Author's final manuscript
ISSN
0278-3649
Keywords
sensor networks, mobile robotics, cooperative navigation, autonomous underwater vehicles