Analyzing the Effect of Persistent Asset Switches on a Class of Hybrid-Inspired Optimization Algorithms

Convex optimization challenges are currently pervasive in many science and engineering domains. In many applications of convex optimization, such as those involving multi-agent systems and resource allocation, the objective function can persistently switch during the execution of an optimization alg...

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Bibliographic Details
Published in:Proceedings of the American Control Conference pp. 3422 - 3427
Main Authors: Baradaran, Matina, Le, Justin H., Teel, Andrew R.
Format: Conference Proceeding
Language:English
Published: American Automatic Control Council 25.05.2021
Subjects:
Asymptotic stability
Convex functions
Heuristic algorithms
Linear programming
Robust stability
Switched systems
Switches
ISSN:2378-5861
Online Access:Get full text
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Summary:Convex optimization challenges are currently pervasive in many science and engineering domains. In many applications of convex optimization, such as those involving multi-agent systems and resource allocation, the objective function can persistently switch during the execution of an optimization algorithm. Motivated by such applications, we analyze the effect of persistently switching objectives in continuous-time optimization algorithms. In particular, we take advantage of existing robust stability results for switched systems with distinct equilibria and extend these results to systems described by differential inclusions, making the results applicable to recent optimization algorithms that employ differential inclusions for improving efficiency and/or robustness. Within the framework of hybrid systems theory, we provide an accurate characterization, in terms of Omega-limit sets, of the set to which the optimization dynamics converge. Finally, by considering the switching signal to be constrained in its average dwell time, we establish semi-global practical asymptotic stability of these sets with respect to the dwell-time parameter.
ISSN:2378-5861
DOI:10.23919/ACC50511.2021.9482915