A prediction method of the response probability distribution for arbitrary sound insulation systems

Most of the usual studies on a sound insulation system were introduced from the deterministic viewpoint in the frequency domain. This paper presents for the first time a fairly simplified identification method applicable to the actual situation of a sound insulation system under the introduction of

Dissipative vehicle exhaust silencers often have cross-sectional geometries that defy straightforward analytical solution of the acoustic eigenproblem; some kind of solution is, however, required as a part of the basis for computational silencer design methods. As a useful alternative to some of the

An image-source based computer model is presented for the prediction of sound distribution in non-diffuse fitted enclosed spaces, such as factories. The new model, CISM, was developed on the basis of the sound propagation predictions of the Ondet and Barbry RAYCUB model in laboratory and industrial

This paper describes the development and application of a time-domain acoustic liner model which is suitable for the simulation of sound propagation and attenuation in lined ducts. The #uid #ow within the duct domain is represented by the non-linear, unsteady Euler equations while the liner model co

In the application of the statistical energy analysis theory to the calculation of sound insulation it has been determined that there is a great discrepancy between the measured and theoretical values at low frequencies. This is one of the disadvantages of statistical energy analysis. Therefore, it