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740 results on '"MOLECULAR beams"'

1. Boundary tracking control of flexible beams for transferring motions.

Author

Do, K. D.

Subjects
*EQUATIONS of motion, *ROTATIONAL motion, *NONLINEAR differential equations, *PARTIAL differential equations, *HILBERT space, *EULER-Bernoulli beam theory, *NONHOLONOMIC dynamical systems, *MOLECULAR beams
Abstract

Although flexible beams for transmitting both translational and rotational large motions are used in practice such as ocean drill pipes, their control has not been considered. This paper develops boundary feedback controllers to stabilise these beams at their reference configurations. Exact nonlinear partial differential equations governing motion of the beams in three-dimensional space are derived and used in the control design. The designed controllers guarantee globally practically asymptotically stability of the beam motions at the reference states (i.e. positions and rotations of a straight beam moving axially with a desired velocity and rotating around its axial axis with a desired velocity). In the control design and analysis of well-posedness and stability, we utilise different transformations between the earth-fixed and body-fixed coordinates, Sobolev embeddings, and a Lyapunov-type theorem developed for a class of evolution systems in Hilbert space. Simulation results are also included to illustrate the effectiveness of the proposed control design. [ABSTRACT FROM AUTHOR]

Published
2020
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14. Chaotic dynamics of flexible beams driven by external white noise.

Author

Awrejcewicz, J., Krysko, A.V., Papkova, I.V., Zakharov, V.M., Erofeev, N.P., Krylova, E.Yu., Mrozowski, J., and Krysko, V.A.

Subjects
*TURBULENCE, *MOLECULAR beams, *FAST Fourier transforms, *DETERMINISTIC chaos, *CHAOS theory
Abstract

Mathematical models of continuous structural members (beams, plates and shells) subjected to an external additive white noise are studied. The structural members are considered as systems with infinite number of degrees of freedom. We show that in mechanical structural systems external noise can not only lead to quantitative changes in the system dynamics (that is obvious), but also cause the qualitative, and sometimes surprising changes in the vibration regimes. Furthermore, we show that scenarios of the transition from regular to chaotic regimes quantified by Fast Fourier Transform (FFT) can lead to erroneous conclusions, and a support of the wavelet analysis is needed. We have detected and illustrated the modifications of classical three scenarios of transition from regular vibrations to deterministic chaos. The carried out numerical experiment shows that the white noise lowers the threshold for transition into spatio-temporal chaotic dynamics. A transition into chaos via the proposed modified scenarios developed in this work is sensitive to small noise and significantly reduces occurrence of periodic vibrations. Increase of noise intensity yields decrease of the duration of the laminar signal range, i.e., time between two successive turbulent bursts decreases. Scenario of transition into chaos of the studied mechanical structures essentially depends on the control parameters, and it can be different in different zones of the constructed charts (control parameter planes). Furthermore, we found an interesting phenomenon, when increase of the noise intensity yields surprisingly the vibrational characteristics with a lack of noisy effect (chaos is destroyed by noise and windows of periodicity appear). [ABSTRACT FROM AUTHOR]

Published
2016
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