Mateusz Lazarek scite author profile

In this paper we propose a new method to detect and classify coexisting solutions in nonlinear systems. We focus on mechanical and structural systems where we usually avoid multistability for safety and reliability. We want to be sure that in the given range of parameters and initial conditions the expected solution is the only possible or at least has dominant basin of attraction. We propose an algorithm to estimate the probability of reaching the solution in given (accessible) ranges of initial conditions and parameters. We use a modified method of basin stability (Menck et al. in Nat Phys 9(2):89-92, 2013).In our investigation we examine three different systems: a Duffing oscillator with a tuned mass absorber, a bilinear impacting oscillator and a beam with attached rotating pendula. We present the results that prove the usefulness of the proposed algorithm and highlight its strengths in comparison with classical analysis of nonlinear systems (analytical solutions, path-following, basin of attraction ect.). We show that with relatively small computational effort (comparing to classical analysis) we can predict the behaviour of the system and select the ranges in parameter's space where the system behaves in a presumed way. The method can be used in all types of nonlinear complex systems.

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Design and identification of parameters of tuned mass damper with inerter which enables changes of inertance

Lazarek

Brzeski

Perlikowski

2018

Mechanism and Machine Theory

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Design and modeling of the CVT for adjustable inerter

Lazarek

Brzeski

Perlikowski

2019

Journal of the Franklin Institute

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Synchronization extends the life time of the desired behavior of globally coupled systems

Kapitaniak

Lazarek

Niełaczny

et al. 2014

Sci Rep

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Synchronization occurs widely in natural and technological world, but it has not been widely used to extend the life time of the desirable behavior of the coupled systems. Here we consider the globally coupled system consisting of n units and show that the initial synchronous state extends the lifetime of desired behavior of the coupled system in the case when the excitation of one or few units is suddenly (breakdown of energy supply) or gradually (as the effect of aging and fatigue) switched off. We give evidence that for the properly chosen coupling the energy transfer from the excited units allows unexcited units to operate in the desired manner. As proof of concept, we examine the system of coupled externally excited rotating pendula. After the partial excitation switch off the initial complete synchronization of all pendula is replaced by phase synchronization with a constant phase shift between the clusters of excited and unexcited pendula. Our results show that the described extension of the system's life time occurs for the wide range of coupling parameters and is robust to the external perturbations.

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Mateusz Lazarek

Experimental study of the novel tuned mass damper with inerter which enables changes of inertance

Basin stability approach for quantifying responses of multistable systems with parameters mismatch

Design and identification of parameters of tuned mass damper with inerter which enables changes of inertance

Design and modeling of the CVT for adjustable inerter

Synchronization extends the life time of the desired behavior of globally coupled systems

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