Back to Search Start Over

Data-Enabled Gradient Flow as Feedback Controller: Regulation of Linear Dynamical Systems to Minimizers of Unknown Functions

Authors :
Cothren, Liliaokeawawa
Bianchin, Gianluca
Dall'Anese, Emiliano
Cothren, Liliaokeawawa
Bianchin, Gianluca
Dall'Anese, Emiliano
Publication Year :
2021

Abstract

This paper considers the problem of regulating a linear dynamical system to the solution of a convex optimization problem with an unknown or partially-known cost. We design a data-driven feedback controller - based on gradient flow dynamics - that (i) is augmented with learning methods to estimate the cost function based on infrequent (and possibly noisy) functional evaluations; and, concurrently, (ii) is designed to drive the inputs and outputs of the dynamical system to the optimizer of the problem. We derive sufficient conditions on the learning error and the controller gain to ensure that the error between the optimizer of the problem and the state of the closed-loop system is ultimately bounded; the error bound accounts for the functional estimation errors and the temporal variability of the unknown disturbance affecting the linear dynamical system. Our results directly lead to exponential input-to-state stability of the closed-loop system. The proposed method and the theoretical bounds are validated numerically.<br />Comment: This is an extended version of the paper accepted to the 4th Annual Learning for Dynamics & Control Conference (L4DC 2022), containing proofs

Details

Database :
OAIster
Publication Type :
Electronic Resource
Accession number :
edsoai.on1333735804
Document Type :
Electronic Resource