Litcius/Paper detail

A framework for the propagation of uncertainty in Transfer Path Analysis

J.W.R. Meggitt, A.T. Moorhouse, K. Wienen, Michael Sturm

2020Journal of Sound and Vibration14 citationsDOIOpen Access PDF

Abstract

Transfer Path Analysis (TPA) is a test-based methodology used to analyse the propagation of noise and vibration in complex systems. In this paper we present a covariance based framework for the propagation of experimental uncertainty in classical, blocked force, and component-based TPA procedures. The presence of both complex and correlated uncertainty is acknowledged through a bivariate description of the underlying uncertainty. The framework is summarised by a series of equations that propagate uncertainty through the various stages of a TPA procedure i.e. inverse source characterisation, dynamic sub-structuring, and forward response prediction. The uncertainty associated with rank ordering of source contributions is also addressed. To demonstrate the proposed framework a numerical simulation is presented, the results of which are compared against Monte-Carlo methods with good agreement obtained. An experimental study is also presented, where a blocked force TPA is performed on an electric steering system. The proposed uncertainty framework requires no additional experimental effort over and above what is performed in a standard TPA and may therefore be readily implemented into current TPA practices.

Topics & Concepts

Propagation of uncertaintyMonte Carlo methodCovarianceUncertainty analysisComputer scienceInverseStructuringBivariate analysisUncertainty quantificationNoise (video)AlgorithmMathematical optimizationApplied mathematicsMathematicsSimulationStatisticsArtificial intelligenceEconomicsFinanceGeometryImage (mathematics)Machine learningVehicle Noise and Vibration ControlAcoustic Wave Phenomena ResearchEffects of Vibration on Health