Krasovskii Passivity for Sampled-Data Stabilization and Output Consensus

Yu Kawano; Alessio Moreschini; Michele Cucuzzella

doi:10.1109/TAC.2024.3447808

Krasovskii Passivity for Sampled-Data Stabilization and Output Consensus

Yu Kawano, Alessio Moreschini, Michele Cucuzzella

Discrete Technology and Production Automation

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Abstract

In this paper, we establish the novel concept of Krasovskii passivity for sampled discrete-time nonlinear systems, utilizing Krasovskii passivity for control design under sampling. We consider two separate control objectives: stabilization and output consensus, where the latter is studied under the presence of an unknown constant disturbance. Drawing inspiration from established methodologies in the continuous-time domain, we design sampled-data control schemes for each control objective, leveraging Krasovskii passivity. The proposed sampled discrete-time controllers are respectively validated through simulations on a DC microgrid of boost converters and a DC microgrid of buck converters whose continuous-time models and their implicit midpoint discretizations are Krasovskii passive in each time scale.

Original language	English
Pages (from-to)	1038-1053
Number of pages	16
Journal	IEEE Transactions on Automatic Control
Volume	70
Issue number	2
DOIs	https://doi.org/10.1109/TAC.2024.3447808
Publication status	Published - Feb-2025

Keywords

Control design
Discrete-time systems
Krasovskii passivity
Microgrids
Nonlinear dynamical systems
nonlinear systems
output consensus
stabilization
Standards
Vectors
Voltage control

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Krasovskii Passivity for Sampled-Data Stabilization and Output ConsensusFinal publisher's version, 1.75 MBLicence: CC BY-NC-ND

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abstract = "In this paper, we establish the novel concept of Krasovskii passivity for sampled discrete-time nonlinear systems, utilizing Krasovskii passivity for control design under sampling. We consider two separate control objectives: stabilization and output consensus, where the latter is studied under the presence of an unknown constant disturbance. Drawing inspiration from established methodologies in the continuous-time domain, we design sampled-data control schemes for each control objective, leveraging Krasovskii passivity. The proposed sampled discrete-time controllers are respectively validated through simulations on a DC microgrid of boost converters and a DC microgrid of buck converters whose continuous-time models and their implicit midpoint discretizations are Krasovskii passive in each time scale.",

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Krasovskii Passivity for Sampled-Data Stabilization and Output Consensus

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