Influences of system uncertainties on the numerical transfer path analysis of engine systems
•Methodology to properly assess and rank system sources when dealing with uncertainties.•RMT used to investigate influence of model parameters on problems of source assessment and ranking.•The derived statistical information can be used to advance the knowledge of the multi-body analysis. Practical...
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Published in | Mechanical systems and signal processing Vol. 95; pp. 106 - 121 |
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Main Authors | , , |
Format | Journal Article |
Language | English |
Published |
Berlin
Elsevier Ltd
01.10.2017
Elsevier BV |
Subjects | |
Online Access | Get full text |
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Summary: | •Methodology to properly assess and rank system sources when dealing with uncertainties.•RMT used to investigate influence of model parameters on problems of source assessment and ranking.•The derived statistical information can be used to advance the knowledge of the multi-body analysis.
Practical mechanical systems operate with some degree of uncertainty. In numerical models uncertainties can result from poorly known or variable parameters, from geometrical approximation, from discretization or numerical errors, from uncertain inputs or from rapidly changing forcing that can be best described in a stochastic framework. Recently, random matrix theory was introduced to take parameter uncertainties into account in numerical modeling problems. In particular in this paper, Wishart random matrix theory is applied on a multi-body dynamic system to generate random variations of the properties of system components. Multi-body dynamics is a powerful numerical tool largely implemented during the design of new engines. In this paper the influence of model parameter variability on the results obtained from the multi-body simulation of engine dynamics is investigated. The aim is to define a methodology to properly assess and rank system sources when dealing with uncertainties. Particular attention is paid to the influence of these uncertainties on the analysis and the assessment of the different engine vibration sources. Examples of the effects of different levels of uncertainties are illustrated by means of examples using a representative numerical powertrain model. A numerical transfer path analysis, based on system dynamic substructuring, is used to derive and assess the internal engine vibration sources. The results obtained from this analysis are used to derive correlations between parameter uncertainties and statistical distribution of results. The derived statistical information can be used to advance the knowledge of the multi-body analysis and the assessment of system sources when uncertainties in model parameters are considered. |
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ISSN: | 0888-3270 1096-1216 |
DOI: | 10.1016/j.ymssp.2017.03.037 |