Hybrid dynamical systems- modeling and design for robust decision making, control, and optimization

Abstract

The proposed work will advance the state of the art regarding the use of hy-brid dynamical systems to design feedback algorithms for decision-making tasks, high-performance control, and e cient optimization. Here, by hybrid , we mean mechanisms and systems that combine incremental change, including that experi-enced by the physical states, with more extreme change, including that experienced by easy-to-modify digital states. One thrust of our work will be on the use of reset-ting mechanisms to improve performance and robustness of control and optimization algorithms. This thrust will cover the multi-agent setting, developing problem formu-lations and algorithms that require a hybrid modeling framework. Another thrust will be on the combination of resetting mechanisms with stochasticity to produce e cient algorithms for non-convex optimization and also for decision making in dis-tributed multi-agent systems. Also consistent with a hybrid systems framework, we will develop new results for multi-agent systems that employ hybrid feedback and that must cope with a persistently switching task, asset, or environment. In this setting, we will give a rigorous characterization of the steady-state behavior of the multi-agent system. More broadly, we aim to bring novelty and uniformity to the design and analysis of hybrid mechanisms in single- and multi-agent systems and to advocate for creative hybrid mechanisms that may be able to improve performance of these systems.

Document Details

Document Type

DoD Grant Award

Publication Date

Mar 07, 2023

Source ID

FA95502110452

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