Filip Svoboda scite author profile

In the paper, we propose distributed feedback control laws for active damping of one-dimensional mechanical structures equipped with dense arrays of force actuators and position and velocity sensors. We consider proportional position and velocity feedback from the neighboring nodes with symmetric gains. Achievable control performance with respect to stability margin and damping ratio is discussed. Compared to full-featured complex controllers obtained by modern design methods like LQG, H-infinity, or mu-synthesis, these simplistic controllers are more suitable for experimental fine tuning and are less case-dependent, and they shall be easier to implement on the target future smart-material platforms.

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Construction of the smooth morphing trailing edge demonstrator

Svoboda

Hromčík

2019

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Decentralized control for large scale systems with inherently coupled subsystems

Svoboda¹,

Hengster-Movrić²,

Hromčík³

2021

Journal of Vibration and Control

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This paper brings a novel scalable control design methodology for Large-Scale Systems. Such systems are considered as multi-agent systems with inherent interactions between neighboring agents. The presented design methodology uses single-agent dynamics and their interaction topology, rather than relying on the model of the entire system. The dimension of the design problem therefore remains the same with growing number of agents. This allows a feasible control design even for large systems. Moreover, the proposed design is based on simple Linear Matrix Inequalities, efficiently solvable using standard computational tools. Numerical results validate the proposed approach.

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Filip Svoboda

Active flutter suppression by means of fixed-order H_∞ control: results for the Benchmark Active Control Technology (BACT) wing

Finite element method based modeling of a flexible wing structure

Low‐Complexity Decentralized Active Damping of One‐Dimensional Structures

Construction of the smooth morphing trailing edge demonstrator

Decentralized control for large scale systems with inherently coupled subsystems

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Resources

About

Filip Svoboda

Active flutter suppression by means of fixed-order H∞ control: results for the Benchmark Active Control Technology (BACT) wing

Finite element method based modeling of a flexible wing structure

Low‐Complexity Decentralized Active Damping of One‐Dimensional Structures

Construction of the smooth morphing trailing edge demonstrator

Decentralized control for large scale systems with inherently coupled subsystems

Contact Info

Product

Resources

About

Active flutter suppression by means of fixed-order H_∞ control: results for the Benchmark Active Control Technology (BACT) wing