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Robust Energy-Optimal Control for 3-D Path-Following of Autonomous Underwater Vehicles Under Ocean Currents

Niankai Yang, Chao Shen, Ziyou Song, Matthew Johnson‐Roberson, Jing Sun

2023IEEE Transactions on Control Systems Technology14 citationsDOI

Abstract

In this work, we propose a robust energy-optimal control that achieves 3-D path following for autonomous underwater vehicles (AUVs) in environments with ocean currents. The actual algorithm is decomposed into two elements: setpoint computation and setpoint tracking. For setpoint computation, the surge velocity, heave velocity, and pitch angle setpoints are optimized by minimizing vehicle propulsion energy considering the uncertainty set defined by the state estimate and associated uncertainty. A line-of-sight (LOS)-based guidance law, which integrates direct and indirect drift angle compensation for reduced path-following error and path-convergence time, is established to compute the yaw angle setpoints. Two setpoint-tracking model predictive controllers, minimizing a weighted sum of setpoint-tracking error and control efforts, are designed to control horizontal and vertical vehicle motion with low computational complexity. Simulation is conducted on a lawnmower-type mission under different flow conditions in the presence of measurement noises and biased ocean current estimates. The performance robustness in path following and energy saving of the proposed approach is verified through extensive numerical and theoretical analysis.

Topics & Concepts

SetpointControl theory (sociology)Robustness (evolution)EngineeringEnergy (signal processing)ComputationComputer scienceMathematicsAlgorithmArtificial intelligenceControl (management)BiochemistryChemistryStatisticsGeneUnderwater Vehicles and Communication SystemsAdaptive Control of Nonlinear SystemsRobotic Path Planning Algorithms
Robust Energy-Optimal Control for 3-D Path-Following of Autonomous Underwater Vehicles Under Ocean Currents | Litcius