Electro–mechanical sensors and actuators are a specific type of microsystems. The electrostatic pull-in value is one of the defining characteristics for these devices. Because the material and geometrical properties of micro fabricated systems are often very uncertain, this pull-in value can be subject to considerable variations. Therefore it is important to be able to estimate how uncertainty of mechanical properties propagates to the uncertainty of pull-in values. In this work the required design sensitivities of static and dynamic pull-in are derived. These sensitivities are used to perform a perturbation–based stochastic FEM analysis of an electromechanical device. This stochastic analysis consists of an uncertainty analysis and a relia...
The Monte Carlo method is widely used for the estimation of uncertainties in mechanical engineering ...
In this study, a Monte Carlo simulation (MCs)-based isogeometric stochastic Finite Element Method (F...
In this paper, we investigate the stochastic effects of the microstructure of polysilicon films on t...
Electro–mechanical sensors and actuators are a specific type of microsystems. The electrostatic pull...
Electro–mechanical sensors and actuators are a specific type of microsystems. The electrostatic pull...
Un microsystème électromécanique (MEMS – Micro Electro-Mechanical Systems) est une structure qui int...
In the design of micro-electromechanical systems (MEMS) such as micro-resonators, dissipation mechan...
This paper presents an efficient stochastic framework for quantifying the effect of stochastic varia...
Microsystems are very small sensors and actuators, manufactured with the same technology as computer...
Uncertainty quantification (UQ) has become a necessary step in the design of most modern engineering...
Stiction is a major failure in microelectromechanical system (MEMS) devices in which two contacting ...
In traditional computational mechanics, it is often assumed that the physical properties of the syst...
Uncertainty quantification has become an important task and an emerging topic in many engineering fi...
This work proposes a domain adaptive stochastic collocation approach for uncertainty quantification,...
Microelectromechanical systems (MEMS) that have micromechanisms as actuators involve inaccuracy prob...
The Monte Carlo method is widely used for the estimation of uncertainties in mechanical engineering ...
In this study, a Monte Carlo simulation (MCs)-based isogeometric stochastic Finite Element Method (F...
In this paper, we investigate the stochastic effects of the microstructure of polysilicon films on t...
Electro–mechanical sensors and actuators are a specific type of microsystems. The electrostatic pull...
Electro–mechanical sensors and actuators are a specific type of microsystems. The electrostatic pull...
Un microsystème électromécanique (MEMS – Micro Electro-Mechanical Systems) est une structure qui int...
In the design of micro-electromechanical systems (MEMS) such as micro-resonators, dissipation mechan...
This paper presents an efficient stochastic framework for quantifying the effect of stochastic varia...
Microsystems are very small sensors and actuators, manufactured with the same technology as computer...
Uncertainty quantification (UQ) has become a necessary step in the design of most modern engineering...
Stiction is a major failure in microelectromechanical system (MEMS) devices in which two contacting ...
In traditional computational mechanics, it is often assumed that the physical properties of the syst...
Uncertainty quantification has become an important task and an emerging topic in many engineering fi...
This work proposes a domain adaptive stochastic collocation approach for uncertainty quantification,...
Microelectromechanical systems (MEMS) that have micromechanisms as actuators involve inaccuracy prob...
The Monte Carlo method is widely used for the estimation of uncertainties in mechanical engineering ...
In this study, a Monte Carlo simulation (MCs)-based isogeometric stochastic Finite Element Method (F...
In this paper, we investigate the stochastic effects of the microstructure of polysilicon films on t...