Add to ORKGAbstract. The transmissibility concept may be generalized to multi-degree-of-freedom systems with multiple random excitations. This generalization involves the definition of a transmissibility matrix, relating two sets of responses when the structure is subjected to excitation at a given set of coordinates. Applying such a concept to an experimental example is the easiest way to validate this method
The experimental estimation of frequency response functions characterizing SISO linear systems is a ...
An approximate approach is presented for determining the stationary random response of a general mul...
An approximate approach is presented for determining the stationary random response of a general mul...
The dynamic behaviour of a structure can be modelled in various ways. In practice, the response mode...
The experimental estimation of frequency response functions characterizing SISO linear systems is a ...
In this paper the author present some theoretical considerations about a new method for real mecha...
The response of structural dynamical systems excited by multiple random excitations is considered. T...
The response of structural dynamical systems excited by multiple random excitations is considered. T...
When deriving an experimental model from Frequency Response Functions (FRFs), it may happen that the...
The experimental estimation of frequency response functions characterizing SISO linear systems is a ...
A new technique is proposed for determining the response of multi-degree-of-freedom nonlinear system...
A new technique is proposed for determining the response of multi-degree-of-freedom nonlinear system...
Both time- and frequency-domain solution techniques are developed for determining the response of li...
A new technique is proposed for determining the response of multi-degree-of-freedom nonlinear system...
Both time- and frequency-domain solution techniques are developed for determining the response of li...
The experimental estimation of frequency response functions characterizing SISO linear systems is a ...
An approximate approach is presented for determining the stationary random response of a general mul...
An approximate approach is presented for determining the stationary random response of a general mul...
The dynamic behaviour of a structure can be modelled in various ways. In practice, the response mode...
The experimental estimation of frequency response functions characterizing SISO linear systems is a ...
In this paper the author present some theoretical considerations about a new method for real mecha...
The response of structural dynamical systems excited by multiple random excitations is considered. T...
The response of structural dynamical systems excited by multiple random excitations is considered. T...
When deriving an experimental model from Frequency Response Functions (FRFs), it may happen that the...
The experimental estimation of frequency response functions characterizing SISO linear systems is a ...
A new technique is proposed for determining the response of multi-degree-of-freedom nonlinear system...
A new technique is proposed for determining the response of multi-degree-of-freedom nonlinear system...
Both time- and frequency-domain solution techniques are developed for determining the response of li...
A new technique is proposed for determining the response of multi-degree-of-freedom nonlinear system...
Both time- and frequency-domain solution techniques are developed for determining the response of li...
The experimental estimation of frequency response functions characterizing SISO linear systems is a ...
An approximate approach is presented for determining the stationary random response of a general mul...
An approximate approach is presented for determining the stationary random response of a general mul...