Terrain navigation for underwater vehicles using the correlator method

Terrain navigation for underwater vehicles using the correlator method

In many autonomous underwater vehicle (AUV) applications of long duration, there is a need to accurately determine the AUV's position in an effective way, in terms of both cost and energy consumption. Such situations may occur in reconnaissance operations, mine counter measure operations, and w...

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Veröffentlicht in:IEEE journal of oceanic engineering 2004-07, Vol.29 (3), p.906-915
Hauptverfasser: Nygren, I., Jansson, M.
Format: Artikel
Sprache:eng
Schlagworte:
Autonomous underwater vehicles
Bayesian recursive filter
Computational efficiency
correlation
Correlators
Costs
Counting circuits
Energy consumption
linear Kalman filter
Marine
maximum-likelihood (ML) estimation
Navigation
Reconnaissance
Sampling
Sampling methods
Sonar
Sonar navigation
Surfaces
Terrain
terrain navigation
Topography
Underwater tracking
Underwater vehicles
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Beschreibung
Zusammenfassung:In many autonomous underwater vehicle (AUV) applications of long duration, there is a need to accurately determine the AUV's position in an effective way, in terms of both cost and energy consumption. Such situations may occur in reconnaissance operations, mine counter measure operations, and when an AUV is sampling the characteristics of the environment along a track. Since underwater maps are rare, there also is a need for navigational methods that can accommodate very infrequent sampling in terms of time and space. This work describes a new method to solve the above problem by using a multibeam sonar for three-dimensional sampling of the bottom topography and a linear Kalman filter in a nearly optimal way. The proposed method is very accurate, robust, and computationally efficient compared to other methods that are used for terrain navigation. This method is also suitable for continuous navigation.
ISSN:0364-9059
1558-1691
1558-1691
DOI:10.1109/JOE.2004.833222