An experimental-based approach to flutter speed uncertainty quantification in aeroelastic systems is developed. The proposed technique considers uncertainty from a post-manufacture perspective. Variability due to manufacturing tolerances, damage and degradation is formulated as a stochastic structural modification to a single set of measured receptance data. The Sherman-Morrison formula is exploited so that the probability of flutter is evaluated either from parameter bounds or by using a first-order reliability method. The advantage of the formulation is that there is no requirement to model either the structure or aerodynamics, thereby avoiding model-form and parameter uncertainties. Numerical examples are provided, which demonstrate the ...
The problems of uncertainty modeling and model validation of aeroelastic system are investigated. Th...
Response of flexible structures — such as cable-supported bridges and aircraft wings — is associated...
Aeroelastic flutter is a dangerous failure mode, and aircraft structural components are designed und...
Flutter-critical velocity is usually estimated from deterministic analyses by assuming that physical...
The critical flutter velocity is an essential factor in aeronautic design because it caracterises th...
In this work, Bayesian techniques are employed to quantify model-form and predictive uncertainty in ...
This report documents the culmination of in-house work in the area of uncertainty quantification and...
Uncertainties in aero elastic analysis are investigated. In aero elastic analysis, we usually find d...
Flutter is a dynamic instability that aerodynamic vehicles encounter in atmospheric flight. The inte...
Flutter is a critical aeroelastic instability, whose consideration is fundamental during the design ...
In this work, a physics-based first-order reliability method (FORM) algorithm is proposed for the fl...
AbstractUncertainties denote the operators which describe data error, numerical error and model erro...
Uncertainties denote the operators which describe data error, numerical error and model error in the...
Safety margins of aerospace structures can be improved through altering the laminate parameters of c...
La vitesse critique de flottement est un facteur essentiel à la conception aéronautique car elle car...
The problems of uncertainty modeling and model validation of aeroelastic system are investigated. Th...
Response of flexible structures — such as cable-supported bridges and aircraft wings — is associated...
Aeroelastic flutter is a dangerous failure mode, and aircraft structural components are designed und...
Flutter-critical velocity is usually estimated from deterministic analyses by assuming that physical...
The critical flutter velocity is an essential factor in aeronautic design because it caracterises th...
In this work, Bayesian techniques are employed to quantify model-form and predictive uncertainty in ...
This report documents the culmination of in-house work in the area of uncertainty quantification and...
Uncertainties in aero elastic analysis are investigated. In aero elastic analysis, we usually find d...
Flutter is a dynamic instability that aerodynamic vehicles encounter in atmospheric flight. The inte...
Flutter is a critical aeroelastic instability, whose consideration is fundamental during the design ...
In this work, a physics-based first-order reliability method (FORM) algorithm is proposed for the fl...
AbstractUncertainties denote the operators which describe data error, numerical error and model erro...
Uncertainties denote the operators which describe data error, numerical error and model error in the...
Safety margins of aerospace structures can be improved through altering the laminate parameters of c...
La vitesse critique de flottement est un facteur essentiel à la conception aéronautique car elle car...
The problems of uncertainty modeling and model validation of aeroelastic system are investigated. Th...
Response of flexible structures — such as cable-supported bridges and aircraft wings — is associated...
Aeroelastic flutter is a dangerous failure mode, and aircraft structural components are designed und...