A new unsteady aerodynamic modeling methodology for calculating transonic flutter characteristics is presented. The main idea of the methodology is to obtain the unsteady flow response to small amplitude periodic deformations of a structure over a large range of oscillation frequencies through the interpolation of the most dominant fluid dynamic modes obtained from Dynamic Mode Decomposition (DMD) of a few reference unsteady simulations at different oscillation frequencies. These simulations can be carried out by solving the Euler or RANS equations. The methodology can then be used to obtain a frequency-domain generalized aerodynamic force matrix, and stability analysis can be performed using standard flutter analysis methods such as the p...
We present a digest of selected activities at DLR focusing on the application and validation of the ...
Flutter computations are presented for the AGARD 445.6 wing model and the Wing-Pylon-Nacelle configu...
A new time-domain approach for computing flutter speed is presented. Based on the time-history resul...
Transonic aeroelastic analysis at the design level relies on linear panel methods, such as the Doubl...
Modern transport aircraft generally fly in the transonic flow regime. This regime is characterized b...
A new ROM for a CFD based flutter analysis at transonic and separated flow conditions is presented. ...
Two methods for modeling unsteady transonic flows at low computational cost are presented as a first...
A method based on the Euler equations is proposed for solving transonic flutter problems. The transo...
For an accurate prediction of the steady and unsteady behaviour of an aircraft it is necessary to ta...
The flutter behavior of a supercritical airfoil is investigated using a panel formulation, which sol...
The flutter characteristics of the first AGARD standard aeroelastic configuration for dynamic respon...
Transonic aeroelastic and aeroservoelastic (ASE) modeling presents a significant technical and compu...
Aircraft manufacturers have to prove a flutter free design for all operational cases within the comp...
Aeroelastic stability must be maintained for the entire flight duration. Of the vast phenomena that ...
AbstractA coupled fluid-structure method is developed for flutter analysis of blade vibrations in tu...
We present a digest of selected activities at DLR focusing on the application and validation of the ...
Flutter computations are presented for the AGARD 445.6 wing model and the Wing-Pylon-Nacelle configu...
A new time-domain approach for computing flutter speed is presented. Based on the time-history resul...
Transonic aeroelastic analysis at the design level relies on linear panel methods, such as the Doubl...
Modern transport aircraft generally fly in the transonic flow regime. This regime is characterized b...
A new ROM for a CFD based flutter analysis at transonic and separated flow conditions is presented. ...
Two methods for modeling unsteady transonic flows at low computational cost are presented as a first...
A method based on the Euler equations is proposed for solving transonic flutter problems. The transo...
For an accurate prediction of the steady and unsteady behaviour of an aircraft it is necessary to ta...
The flutter behavior of a supercritical airfoil is investigated using a panel formulation, which sol...
The flutter characteristics of the first AGARD standard aeroelastic configuration for dynamic respon...
Transonic aeroelastic and aeroservoelastic (ASE) modeling presents a significant technical and compu...
Aircraft manufacturers have to prove a flutter free design for all operational cases within the comp...
Aeroelastic stability must be maintained for the entire flight duration. Of the vast phenomena that ...
AbstractA coupled fluid-structure method is developed for flutter analysis of blade vibrations in tu...
We present a digest of selected activities at DLR focusing on the application and validation of the ...
Flutter computations are presented for the AGARD 445.6 wing model and the Wing-Pylon-Nacelle configu...
A new time-domain approach for computing flutter speed is presented. Based on the time-history resul...