Kleiber, Justin Tanner2022-05-252022-05-252022-05-24vt_gsexam:34811http://hdl.handle.net/10919/110317In this thesis we demonstrate a technique for robust controller design for an autonomous underwater vehicle (AUV) that explicitly handles the trade-off between reference tracking, agility, and energy efficient performance. AUVs have many sources of modeling uncertainty that impact the uncertainty in maneuvering performance. A robust control design process is proposed to handle these uncertainties while meeting control system performance objectives. We investigate the relationships between linear system design parameters and the control performance of our vehicle in order to inform an H∞ controller synthesis problem with the objective of balancing these tradeoffs. We evaluate the controller based on its reference tracking performance, agility and energy efficiency, and show the efficacy of our control design strategy.ETDenCreative Commons Attribution 4.0 InternationalAutonomous Underwater VehiclesRobust ControlGaussian ProcessesThesis