ADVANCED SIGNAL PROCESSING METHODS FOR RESEARCH ON VIBRATION PROPAGATION IN VEHICLE CONSTRUCTION
Klíčová slova:
vibration propagation in vehicle, signal processing, human vibration perceptionAbstrakt
The article provides a discussion on the studies on advanced signal processing methods for research on vibration propagation in vehicle construction. One of the major purpose of vehicle vibration research is evaluation of the human vibration perception in transport. For this purpose it is necessary to analyse the structure of vibration signals in chosen elements of suspension and car body. The scope of the research allows analysis of quantity of vibration isolation by suspension system and distribution of the vibration penetrates into human body by the feet. The presented algorithm of the signal distribution by the stationary and nonstationary conditions allows proper analysis of the signals separately as the stationar and nonstationar signal.
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Reference
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the Kinetics of Manganese Evaporation from the Ot4 Alloy, Archives of Metallurgy and
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constructive, Perner’s Contacts, Number 4, Volume VII, December 2012, s. 16-25.
(10) BURDZIK, R. Monitoring system of vibration propagation in vehicles and method of
analysing vibration modes, J. Mikulski (Ed.): TST 2012, CCIS 329, Springer,
Heidelberg, 2012, s. 406-413.
(11) BURDZIK, R., STANIK, Z., WARCZEK, J. Method of assessing the impact of material
properties on the propagation of vibrations excited with a single force impulse,
Archives of Materials and Metallurgy, 57(2), 2012, s. 409-416.
(12) BURDZIK, R., FOLĘGA, P., ŁAZARZ, B., STANIK, Z., WARCZEK, J. Analysis of
the impact of surface layer parameters on wear intensity of frictional couples, Archives
of Metallurgy And Materials vol. 57 issue 4, (2012), s. 987-993.
(13) BURDZIK, R. The research of vibration of vehicle floor panel, Silesian University of
Technology Scientific Papers, s. Transport 67, Gliwice: Silesian University of
Technology Academic Press, 2010, s. 23-30.
(14) BURDZIK, R., KONIECZNY, Ł. Diagnosing of shock-absorbers of car vehicles at
changeable pressure in tires, Diagnostyka 3(51), Olsztyn: Polish Society of Technical
Diagnostics, 2009, s. 27-32.
(15) BURDZIK, R., GARDULSKI, J. Frequency analysis decimation vibration signals of
passenger car’s suspensions, Jour. of Transport Problems vol. 2 issue 1, 2007, s. 23-29.
(16) BURDZIK, R., FOLĘGA, P., WĘGRZYN, T., SILVA ABILIO, P. Influence of
Exploitation Tire Stiffness on Vehicle Vibration, Conferencia Engenharia, Covilha
Portugalia, 2009, s. 168-171.
vehicle traction drives, In Proceedings of 22nd International Conference
Radioelektronika 2012. New York: IEEE, 2012. s. 165 – 168.
(2) DOLECEK, R., NOVAK, J., CERNY, O. Experimental research of harmonic spectrum
of currents at traction drive with PMSM, Radioengineering 20(2), Czech Republic,
2011.
(3) FIGLUS, T., WILK, A., MADEJ, H., ŁAZARZ, B. Investigation of gearbox
vibroactivity with the use of vibration and acoustic pressure start-up characteristics,
Archive of Mechanical Engineering 58 (2), 2011, s. 209-221.
(4) FIGLUS, T., WILK, A. Application of analysis of envelope's spectrum for gearbox
diagnosing, International Review of Mechanical Engineering 6 (6), 2012, s. 1350-1355.
(5) FOLĘGA, P., SIWIEC, G. Numerical analysis of selected materials for flexsplines,
Archives of Metallurgy and Materials 57 (1), 2012, s. 185-191.
(6) BLACHA, L., SIWIEC, G., OLEKSIAK, B. Loss of aluminium during the process of
Ti-Al-V alloy smelting in a vacuum induction melting (VIM) furnace, Metalurgija 52 (3),
2013, s. 301-304.
(7) BLACHA, L., OLEKSIAK, B., SMALCERZ, A., MATUŁA, T. Changes in Ti-Al-Mn
alloy compositions during their smelting in a vacuum induction furnace, Archives of
Materials Science and Engineering 58 (1), 2012, s. 28-32.
(8) BLACHA, L., BURDZIK, R., SMALCERZ, A., MATUŁA, T. Effects of Pressure on
the Kinetics of Manganese Evaporation from the Ot4 Alloy, Archives of Metallurgy and
Materials 58 (1), 2013, s. 197-201.
(9) BURDZIK, R., DOLEČEK, R. Research of vibration distribution in vehicle
constructive, Perner’s Contacts, Number 4, Volume VII, December 2012, s. 16-25.
(10) BURDZIK, R. Monitoring system of vibration propagation in vehicles and method of
analysing vibration modes, J. Mikulski (Ed.): TST 2012, CCIS 329, Springer,
Heidelberg, 2012, s. 406-413.
(11) BURDZIK, R., STANIK, Z., WARCZEK, J. Method of assessing the impact of material
properties on the propagation of vibrations excited with a single force impulse,
Archives of Materials and Metallurgy, 57(2), 2012, s. 409-416.
(12) BURDZIK, R., FOLĘGA, P., ŁAZARZ, B., STANIK, Z., WARCZEK, J. Analysis of
the impact of surface layer parameters on wear intensity of frictional couples, Archives
of Metallurgy And Materials vol. 57 issue 4, (2012), s. 987-993.
(13) BURDZIK, R. The research of vibration of vehicle floor panel, Silesian University of
Technology Scientific Papers, s. Transport 67, Gliwice: Silesian University of
Technology Academic Press, 2010, s. 23-30.
(14) BURDZIK, R., KONIECZNY, Ł. Diagnosing of shock-absorbers of car vehicles at
changeable pressure in tires, Diagnostyka 3(51), Olsztyn: Polish Society of Technical
Diagnostics, 2009, s. 27-32.
(15) BURDZIK, R., GARDULSKI, J. Frequency analysis decimation vibration signals of
passenger car’s suspensions, Jour. of Transport Problems vol. 2 issue 1, 2007, s. 23-29.
(16) BURDZIK, R., FOLĘGA, P., WĘGRZYN, T., SILVA ABILIO, P. Influence of
Exploitation Tire Stiffness on Vehicle Vibration, Conferencia Engenharia, Covilha
Portugalia, 2009, s. 168-171.
Stahování
Publikováno
2013-07-12
Jak citovat
Burdzik, R., & Doleček, R. (2013). ADVANCED SIGNAL PROCESSING METHODS FOR RESEARCH ON VIBRATION PROPAGATION IN VEHICLE CONSTRUCTION. Perner’s Contacts, 8(2), 15–26. Získáno z https://pernerscontacts.upce.cz/index.php/perner/article/view/727
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