Jonathan A. Muse

TL;DR: An adaptive control architecture such that the proposed adaptive controller is augmented with an adaptive robustifying term is presented, which allows the closed-loop dynamical system to remain stable in the presence of large system uncertainties when the unmodelled system dynamics satisfy a set of conditions.

TL;DR: This paper considers the design of model reference adaptive control laws for uncertain dynamical systems in the presence of high-order actuator dynamics using a linear matrix inequalities-based hedging approach and analyzes the convergence properties of the modified reference model to the ideal reference model.

TL;DR: Stability conditions of model reference adaptive control architectures in the presence of unstructured system uncertainties and unmodeled dynamics are analyzed and synthesized.

TL;DR: The UVM Division of Neurosurgery has a rich history of innovation and academic prowess, which have significantly contributed to making neurosurgery the field it is today as discussed by the authors , including microneurosurgery, the performance of the first extracranial to intracranial bypass, and the education of other neurosurgical giants.