Time-Varying Optimization of LTI Systems Via Projected Primal-Dual Gradient Flows

Time-Varying Optimization of LTI Systems Via Projected Primal-Dual Gradient Flows

This article investigates the problem of regulating, at every time, a linear dynamical system to the solution trajectory of a time-varying constrained convex optimization problem. The proposed feedback controller is based on an adaptation of the saddle-flow dynamics, modified to take into account pr...

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Bibliographic Details
Published in:IEEE transactions on control of network systems Vol. 9; no. 1; pp. 474 - 486
Main Authors: Bianchin, Gianluca, Cortes, Jorge, Poveda, Jorge I., Dall'Anese, Emiliano
Format: Journal Article
Language:English
Published: Piscataway IEEE 01-03-2022
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Constraints
Convexity
Cost analysis
Cost function
Costs
Cyber-physical systems
Dynamic stability
Dynamical systems
Feedback control
Gradient flow
Linear systems
networked control systems
optimal control
Optimization
Output feedback
Power system dynamics
Stability analysis
Time-varying systems
Trajectory
transportation networks
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Summary:This article investigates the problem of regulating, at every time, a linear dynamical system to the solution trajectory of a time-varying constrained convex optimization problem. The proposed feedback controller is based on an adaptation of the saddle-flow dynamics, modified to take into account projections on constraint sets and output feedback from the plant. We derive sufficient conditions on the tunable parameters of the controller (inherently related to the time-scale separation between plant and controller dynamics) to guarantee exponential input-to-state stability of the closed-loop system. The analysis is tailored to the case of time-varying strongly convex cost functions and polytopic output constraints. The theoretical results are further validated in a ramp metering control problem in a network of traffic highways.
ISSN:2325-5870
2372-2533
DOI:10.1109/TCNS.2021.3112762