Safety action over oscillations of a beam excited by moving load via a new active vibration controller

Bauomy, H. S.

doi:10.3934/mbe.2023238

MBE

2023

DOI: 10.3934/mbe.2023238

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Safety action over oscillations of a beam excited by moving load via a new active vibration controller

H. S. Bauomy

Abstract: <abstract> <p>This paper presents a mixed active controller (NNPDCVF) that combines cubic velocity feedback with a negative nonlinear proportional derivative to reduce the nonlinear vibrating behavior of a nonlinear dynamic beam system. Multiple time-scales method treatment is produced to get the mathematical solution of the equations for the dynamical modeling with NNPDCVF controller. This research focuses on two resonance cases which are the primary and 1/2 subharmonic resonances. Time histori… Show more

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2024

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Cited by 2 publications

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An experimental approach to multi-input multi-output nonlinear active vibration control of a clamped sandwich beam

Hameury,

Ferrari,

Franchini

et al. 2024

Mechanical Systems and Signal Processing

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An experimental approach to multi-input multi-output nonlinear active vibration control of a clamped sandwich beam

Hameury,

Ferrari,

Franchini

et al. 2024

Mechanical Systems and Signal Processing

View full text Add to dashboard Cite

Controlling the Generator in a Series of Hybrid Electric Vehicles Using a Positive Position Feedback Controller

Alluhydan,

Amer,

EL-Sayed

et al. 2024

Applied Sciences

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This study investigates the effectiveness of positive position feedback (PPF) in reducing vibration amplitudes in an electric vehicle generator, specifically at super harmonic resonance (SHR) with 1:1 Internal Resonance (IR). Here is a breakdown. Simplified Model: The study uses a simplified nonlinear dynamic model (one degree of freedom, up to fifth-order nonlinear components) with external force, analyzed using the Multiple Time Scales Method (MTSM) with a first-order approximation. Focus on Resonance: The primary focus is on understanding the system’s behavior at SHR with 1:1 IR and how PPF can mitigate vibrations in this specific scenario. Frequency Response and Controller Influence: Frequency response functions are used to analyze the system’s stability with PPF, examining how different controller parameters affect the main system’s dynamics. Validation: Numerical solutions, obtained using the fourth-order Runge–Kutta method (‘RK-4’), are used to demonstrate and evaluate the system’s amplitude with and without PPF. The analytical and numerical results show strong agreement, validating the model’s accuracy. In essence, the research explores using PPF as a vibration control strategy in a specific resonance condition within an electric vehicle generator, using a combination of analytical and numerical methods for analysis and validation.

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Safety action over oscillations of a beam excited by moving load via a new active vibration controller

Cited by 2 publications

References 43 publications

An experimental approach to multi-input multi-output nonlinear active vibration control of a clamped sandwich beam

An experimental approach to multi-input multi-output nonlinear active vibration control of a clamped sandwich beam

Controlling the Generator in a Series of Hybrid Electric Vehicles Using a Positive Position Feedback Controller

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