Passive acoustic tracking of an unmanned underwater vehicle using bearing-Doppler-speed measurements
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Tracking unmanned underwater vehicles (UUVs) in the presence of shipping traffic is a critical task for passive acoustic harbor security systems. In general, vessels can be tracked by their unique acoustic signature caused by machinery vibration and cavitation noise. However, cavitation noise of UUVs is quiet relative to that of ships. Furthermore, tracking a target with bearing-only measurements requires the observing platform to maneuver. In this work, it is demonstrated that it is possible to passively track an UUV from its high-frequency motor noise using a stationary array in a shallow-water experiment with passing boats. The motor noise provides high signal-to-noise ratio measurements of the bearing, range rate, and speed, which we combined in an unscented Kalman filter to track the target. First, beamforming is applied to estimate the bearing. Next, the range rate is calculated from the Doppler effect on the motor noise. The propeller rotation rate can be estimated from the motor signature and converted to speed using a pre-identified model of the robot. The bearing-Doppler-speed measurements outperformed traditional bearing-Doppler target motion analysis: the bearing, bearing rate, range, and range rate accuracy improved by a factor of 2×, 16×, 3×, and 6×, respectively. Finally, the robustness of the tracking solution to an unknown vehicle model is evaluated.
Date issued
2022-02-01Department
Massachusetts Institute of Technology. Department of Mechanical EngineeringJournal
The Journal of the Acoustical Society of America
Publisher
Acoustical Society of America
Citation
Kristen Railey Kita, Supun Randeni, Dino DiBiaso, Henrik Schmidt; Passive acoustic tracking of an unmanned underwater vehicle using bearing-Doppler-speed measurements. J. Acoust. Soc. Am. 1 February 2022; 151 (2): 1311–1324.
Version: Final published version
ISSN
0001-4966
1520-8524
Keywords
Acoustics and Ultrasonics, Arts and Humanities (miscellaneous)