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Optimal Exploration and Charging for an Autonomous Underwater Vehicle with Energy-Harvesting Kite

James Reed, Joshua Daniels, Ayaz Siddiqui, Mitchell Cobb, Chris Vermillion

202026 citationsDOI

Abstract

This paper examines the control of an autonomous underwater vehicle (AUV) with a deployable energy-harvesting kite for oceanographic observation and surveillance. The proposed design and control strategies specifically address objectives of achieving high-payload, long-endurance AUV operation through the deployment of an energy-harvesting kite while the AUV is anchored to the seabed, followed by the retraction of the kite for continued operation of the AUV. While deployed, the kite executes power-augmenting cross-current flight motions, using a hierarchical controller. When the AUV is in motion and the kite is retracted, a dynamic programming-based controller is used to select charging locations that minimize total charging time when traversing a prescribed mission path. Focusing on oceanographic observation along a Gulf Stream transect, using a hindcast model of the Gulf Stream current resource, the paper demonstrates the efficacy of the proposed control approach, as compared to several non-optimized alternatives.

Topics & Concepts

KitePayload (computing)Marine engineeringSoftware deploymentController (irrigation)UnderwaterRemotely operated underwater vehicleComputer scienceWinchEngineeringAutomotive engineeringMobile robotNetwork packetRobotOceanographyGeometryGeologyOperating systemArtificial intelligenceMechanical engineeringComputer networkMathematicsBiologyAgronomyUnderwater Vehicles and Communication SystemsAerospace Engineering and Energy SystemsEnergy Harvesting in Wireless Networks
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