Analog modelling in qualitative analysis of vibration propagation - Publication - Bridge of Knowledge

Your account

login

Search

Analog modelling in qualitative analysis of vibration propagation

Abstract

The theory of dynamic systems is usually used to model the real systems. The models are based on solving ordinary differential equations, partial or difference, which enable obtaining the relation between input signal and the system response (output signal). The analogy between those models and generalized dynamic systems or control systems can be practically used. Vibration propagation can be described in a similar way as the phenomena of vibrations of the electrical, mechanical, or hydraulic systems, diffusion, heat propagation, wave propagation or advection. The physical problem will be solved based on generalized dynamic systems, which enables drawing corresponding conclusions. This concept will be applied to qualitative analysis of vibration propagation in the foundations of transportation constructions

Authors (2)

Cite as

Full text

download paper
downloaded 28 times
Publication version
Accepted or Published Version
License
Copyright (Stowarzyszenie Inżynierów i Techników Komunikacji Rzeczpospolitej Polskiej)

Keywords

Details

Category:
Articles
Type:
artykuły w czasopismach recenzowanych i innych wydawnictwach ciągłych
Published in:
Przegląd Komunikacyjny pages 18 - 21,
ISSN: 0033-2232
Language:
English
Publication year:
2017
Bibliographic description:
Mieloszyk E., Grulkowski S.: Analog modelling in qualitative analysis of vibration propagation// Przegląd Komunikacyjny. -., iss. 9 (2017), s.18-21
Bibliography: test
  1. Bicadze A. W., Równania fi zyki ma- tematycznej, PWN, 1984 open in new tab
  2. Chan T.H.T., Yu L., Tam H.Y., Ni Y.Q., Liu S.Y., Chung W.H., Cheng L.K., Fiber Bragg grating sensors for structural health monitoring of Tsing Ma bridge, Background and experimental observation, Engi- neering Structures, 28, 2006 open in new tab
  3. Edwards R., Functional analysis. Theory and applications, New York, 1965
  4. Evans L. C., Partial Diff erential Equ- ations, American Mathematical Society, 1998
  5. Feynman R. P., Leighton R. B., Sands M., Feynmana wykłady z fi - zyki, PWN, 2001 open in new tab
  6. Gryczmański M., Wprowadzenie do opisu sprężysto -plastycznych modeli gruntów, Wydawnictwo PAN, Studia z zakresu inżynierii nr 40, Warszawa 1995
  7. Hong-Nan Li, Dong-Sheng Li, Gang-Bing Song, Recent appli- cations of fi ber optic sensors to health monitoring in civil engine- ering, Engineering Structures, 26, 2004 open in new tab
  8. Judek S., Karwowski K., Mizan M., Wilk A., Modelowanie współpracy odbieraka prądu z siecią trakcyjną, Przegląd Elektrotechniczny, 11, 2015, 248 -253 open in new tab
  9. Mieloszyk E., Nieklasyczny rachu- nek operatorów w zastosowaniu do uogólnionych układów dy- namicznych. Wydawnictwo PAN, Gdańsk 2008
  10. Milewska A., A certain solution of non-linear diff erential problem with application to selected geo- technical problems, Archives of Civil Engineering, LVIII, 2. open in new tab
  11. Simens A. G., Instrukcja obsługi czterosystemowej lokomotywy wysokiej mocy serii 189.
  12. Tihonow A. N., Samarski A. A., Równania fi zyki matematycznej, PWN, 1963
  13. Verruijt A., An Introduction to Soil Dynamics, Springer, 2010 open in new tab
  14. Zwillinger D., Handbook of Diff e- rential Equations, Academic Press, 1984 open in new tab
Verified by:
Gdańsk University of Technology

seen 99 times

Recommended for you

Fabrication and Characterization of Green Polyurethane Foams with Enhanced Vibration Damping Capability

2023

Nonlinear finite element modeling of vibration control of plane rod-type structural members with integrated piezoelectric patches

2019

Stability evaluation of the marine propulsion unit mechanical system bymeans of vibrations measurements and their analysis.

2012

Stability evaluation of the marine propulsion unit's mechanical system by means of vibration measurements and their analysis

2012
Meta Tags