This paper describes several approaches aiming to significantly reduce the amount of time required to determine the worst case gust loads for aircraft. A number of Design of Experiments, surrogate modeling and optimization techniques are applied in order to determine meta-models encompassing the entire flight envelope and different fuel cases using only a few test points. All of the methodologies are compared on data from a simple, assumed modes, free-free aircraft model with 5 ”interesting quantities”, and are shown to determine accurate predictions of the worst gust case with far fewer gust response calculations than a conventional Monte-Carlo approach
Past history, present status, and future of discrete gusts are schematically presented. It is shown ...
This work presents results of dynamic 1-cos gust load simulations for a flying wing configuration. T...
ABSTRACTSeveral critical load cases during the aircraft design process result from atmospheric turbu...
This paper describes several approaches aiming to significantly reduce the amount of time required t...
An approach to reduce the computational effort required to determine the worst-case gust loads for a...
This paper demonstrates how the robust performance analysis framework can be used to determine worst...
This work presents results of dynamic “one-minus-cosine” gust load simulations for a flying wing con...
Airplanes often operate beyond their original design load profiles. Aviation opens so many new possi...
This project presents work performed by the Institute of Aerospace Engineering, Brno University of T...
International audienceMany methodologies have been proposed to quickly identify among a very large n...
The stresses resulting from wind gusts can exceed the limit value and may cause large-scale structur...
This paper demonstrates how the robust performance analysis framework can be used to determine worst...
In this paper the quantification of nonlinear effects in the gust load prediction of transport aircr...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77263/1/AIAA-2008-5848-970.pd
This paper contains an analysis of the applicability of the statistical theory of extreme values to ...
Past history, present status, and future of discrete gusts are schematically presented. It is shown ...
This work presents results of dynamic 1-cos gust load simulations for a flying wing configuration. T...
ABSTRACTSeveral critical load cases during the aircraft design process result from atmospheric turbu...
This paper describes several approaches aiming to significantly reduce the amount of time required t...
An approach to reduce the computational effort required to determine the worst-case gust loads for a...
This paper demonstrates how the robust performance analysis framework can be used to determine worst...
This work presents results of dynamic “one-minus-cosine” gust load simulations for a flying wing con...
Airplanes often operate beyond their original design load profiles. Aviation opens so many new possi...
This project presents work performed by the Institute of Aerospace Engineering, Brno University of T...
International audienceMany methodologies have been proposed to quickly identify among a very large n...
The stresses resulting from wind gusts can exceed the limit value and may cause large-scale structur...
This paper demonstrates how the robust performance analysis framework can be used to determine worst...
In this paper the quantification of nonlinear effects in the gust load prediction of transport aircr...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77263/1/AIAA-2008-5848-970.pd
This paper contains an analysis of the applicability of the statistical theory of extreme values to ...
Past history, present status, and future of discrete gusts are schematically presented. It is shown ...
This work presents results of dynamic 1-cos gust load simulations for a flying wing configuration. T...
ABSTRACTSeveral critical load cases during the aircraft design process result from atmospheric turbu...