In this work, a stochastic finite element method based on first order perturbation approach is developed for the probabilistic flutter analysis of aircraft wing in frequency domain. Here, both bending and torsional stiffness parameters of the wing are treated as Gaussian random fields and represented by a truncated Karhunen–Loeve expansion. The aerodynamic load on the wing is modeled using Theodorsen’s unsteady aerodynamics based strip theory. In this approach, Theodorsen’s function, which is a complex function of reduced frequency, is also treated as a random field. The applicability of the present method is demonstrated by studying the probabilistic flutter of cantilever wing with stiffness uncertainties. The present method is also valida...
AbstractThe improved line sampling (LS) technique, an effective numerical simulation method, is empl...
Abstract This study examines the well-known issue of evaluating the flutter probability for a long-s...
Abstract With the application of advanced composite materials in High-Aspect-Ratio wings (HARW), the...
In this work, a physics-based first-order reliability method (FORM) algorithm is proposed for the fl...
A probabilistic flutter analysis of geometrically coupled cantilever wing is carried out using first...
The field of fluid-structure interaction is combined with the field of stochastics to perform a stoc...
AbstractThe influences of uncertainties in structural parameters on the flutter speed of wing are st...
How to estimate the stochastic aerodynamic parametric uncertainty on aeroelastic stability is studie...
Flutter is a critical aeroelastic instability, whose consideration is fundamental during the design ...
An experimental-based approach to flutter speed uncertainty quantification in aeroelastic systems is...
The Unsteady Adaptive Stochastic Finite Elements (UASFE) approach is a robust and efficient uncertai...
Response of flexible structures — such as cable-supported bridges and aircraft wings — is associated...
Flutter-critical velocity is usually estimated from deterministic analyses by assuming that physical...
This report documents the culmination of in-house work in the area of uncertainty quantification and...
Aeroelastic stability remains an important concern for the design of modern structures such as wind ...
AbstractThe improved line sampling (LS) technique, an effective numerical simulation method, is empl...
Abstract This study examines the well-known issue of evaluating the flutter probability for a long-s...
Abstract With the application of advanced composite materials in High-Aspect-Ratio wings (HARW), the...
In this work, a physics-based first-order reliability method (FORM) algorithm is proposed for the fl...
A probabilistic flutter analysis of geometrically coupled cantilever wing is carried out using first...
The field of fluid-structure interaction is combined with the field of stochastics to perform a stoc...
AbstractThe influences of uncertainties in structural parameters on the flutter speed of wing are st...
How to estimate the stochastic aerodynamic parametric uncertainty on aeroelastic stability is studie...
Flutter is a critical aeroelastic instability, whose consideration is fundamental during the design ...
An experimental-based approach to flutter speed uncertainty quantification in aeroelastic systems is...
The Unsteady Adaptive Stochastic Finite Elements (UASFE) approach is a robust and efficient uncertai...
Response of flexible structures — such as cable-supported bridges and aircraft wings — is associated...
Flutter-critical velocity is usually estimated from deterministic analyses by assuming that physical...
This report documents the culmination of in-house work in the area of uncertainty quantification and...
Aeroelastic stability remains an important concern for the design of modern structures such as wind ...
AbstractThe improved line sampling (LS) technique, an effective numerical simulation method, is empl...
Abstract This study examines the well-known issue of evaluating the flutter probability for a long-s...
Abstract With the application of advanced composite materials in High-Aspect-Ratio wings (HARW), the...