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Extended Range AUV Localization and Navigation Aided by Gravity Anomalies and Bathymetry

Franz Heubach, Mae Seto

202016 citationsDOI

Abstract

Localization and navigation of autonomous under-water vehicles (AUVs) is critical to underwater operations as measurements collected by their sensors are of little value if they are not geo-referenced to an acceptable certainty. This paper presents contributions to address these challenges for long en-durance AUV missions. First, is a flexible high fidelity underwater navigation testbed to verify navigation and localization strategies. Second, a navigation algorithm that builds on state-of-the-art underwater inertial navigation aided by prior gravity anomaly maps. The algorithm is verified in the underwater navigation testbed. The presented case shows that the proposed algorithm can decrease localization error by 75%.

Topics & Concepts

TestbedBathymetryInertial navigation systemUnderwaterComputer scienceRemotely operated underwater vehicleRange (aeronautics)FidelityWind triangleComputer visionGravity anomalyReal-time computingArtificial intelligenceMarine engineeringEngineeringGeologyInertial frame of referenceMobile robotAerospace engineeringRobotTelecommunicationsPhysicsOil fieldPetroleum engineeringOceanographyComputer networkRobot controlQuantum mechanicsUnderwater Vehicles and Communication SystemsUnderwater Acoustics ResearchRobotics and Sensor-Based Localization
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