Requirements for the dynamic properties of a mechanical structure are commonly expressed in terms of eigenfrequencies. Therefore, during the design phase of a mechanical structure much attention is paid to natural frequencies and mode shapes. However, these modal properties tend to vary strongly if small variations are applied on the design model. Therefore, the presence of open design decisions or other uncertain parameters complicates strongly a meaningful dynamic design validation in an early design stage. A fuzzy finite element method for the eigenvalue analysis has been developed to cope with this problem. This method results in fuzzily defined modal properties indicating the degree of uncertainty on the eigenfrequencies and eigenmodes...
This paper uses an interval and fuzzy finite element approach for the eigenfrequency analysis of a m...
In the present chapter, fuzzy approach is utilized in the assessment of frequency response function ...
In a virtual prototyping context the importance of physical uncertainty modelling has become more ev...
This paper gives an overview on the application of the Fuzzy Finite Element Method (FFEM) for dynami...
A concept is presented for incorporating fuzzy uncertainties in dynamic finite element analyses of u...
The influence of uncertain input data on response spectra of dynamic structures is considered. Tradi...
Recently, an interval finite element methodology has been developed to calculate envelope frequency ...
This paper describes a response surface based optimisation technique for the calculation of envelope...
This paper uses a non-probabilistic Fuzzy Finite Element Method (FFEM) for the analysis of the dynam...
Frequency response finds a wide range of applications in many engineering sectors. When variations a...
This paper uses the interval and fuzzy finite element method for the eigenvalue and frequency respon...
This paper focusses on the application of the interval finite element method in dynamic analyses. It...
This paper aims to assess the effect of input uncertainty on FRF predictions obtained with Finite El...
In this paper, we propose an efficient procedure for finding the possible ranges of uncertain natura...
The predictive capability of finite element models is limited by their deterministic nature: typical...
This paper uses an interval and fuzzy finite element approach for the eigenfrequency analysis of a m...
In the present chapter, fuzzy approach is utilized in the assessment of frequency response function ...
In a virtual prototyping context the importance of physical uncertainty modelling has become more ev...
This paper gives an overview on the application of the Fuzzy Finite Element Method (FFEM) for dynami...
A concept is presented for incorporating fuzzy uncertainties in dynamic finite element analyses of u...
The influence of uncertain input data on response spectra of dynamic structures is considered. Tradi...
Recently, an interval finite element methodology has been developed to calculate envelope frequency ...
This paper describes a response surface based optimisation technique for the calculation of envelope...
This paper uses a non-probabilistic Fuzzy Finite Element Method (FFEM) for the analysis of the dynam...
Frequency response finds a wide range of applications in many engineering sectors. When variations a...
This paper uses the interval and fuzzy finite element method for the eigenvalue and frequency respon...
This paper focusses on the application of the interval finite element method in dynamic analyses. It...
This paper aims to assess the effect of input uncertainty on FRF predictions obtained with Finite El...
In this paper, we propose an efficient procedure for finding the possible ranges of uncertain natura...
The predictive capability of finite element models is limited by their deterministic nature: typical...
This paper uses an interval and fuzzy finite element approach for the eigenfrequency analysis of a m...
In the present chapter, fuzzy approach is utilized in the assessment of frequency response function ...
In a virtual prototyping context the importance of physical uncertainty modelling has become more ev...