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  • Navigation and Control for Autonomous Vessels

    PI Darris White

    PI Eric Coyle

    PI Patrick Currier

    Development of closed-form solution for control of over-actuated maritime systems.

    A method for controlling the position, orientation and velocity of a marine vessel in a body of water with multiple, independently steered propulsion devices. The method involves receiving a command to move to a specific position and orientation. Utilizing position/heading feedback control, a control algorithm is used to calculate the required forces and moments to move the vehicle. Steering angles and thrust forces are determined for each of the vessel's propulsion devices. The thrust and angular displacement limits of each device are used to determine if the required forces and moments are achievable using one of three modes of operation: parallel steer, counter steer and combined parallel/counter steer. The approach fully utilizes the solution workspace for the over-actuated system without requiring the use of an optimization. The approach is used for smooth autonomous navigation in scenarios that include station keeping, path following, transitional states, disturbance rejection and object avoidance.

    Categories: Faculty-Staff

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