The work presented here is the first part of a continuing effort to expand existing capabilities in aeroelasticity by developing the methodology which is necessary to utilize unsteady time-domain aerodynamics directly in aeroservoelastic design and analysis. The ultimate objective is to define a fully integrated state-space model of an aeroelastic vehicle's aerodynamics, structure and controls which may be used to efficiently determine the vehicle's aeroservoelastic stability. Here, the current status of developing a state-space model for linear or near-linear time-domain indicial aerodynamic forces is presented
Due to the requirement of increased performance and maneuverability, the flight envelope of a modern...
Modifications to a three dimensional, implicit, upwind, unstructured-grid Euler code for aeroelastic...
This thesis concerns the development of computational methods for efficient flexible-aircraft flight...
Various control analysis, design, and simulation techniques for aeroelastic applications require the...
The lightweight structures and unconventional configurations being considered for the next generatio...
Is known that aeroservoelasticity is a multidisciplinary study for the interactions of three discipl...
A short theoretical study of aircraft aerodynamic model equations with unsteady effects is presented...
A new time-domain approach for computing flutter speed is presented. Based on the time-history resul...
This monograph presents the state of the art in aeroservoelastic (ASE) modeling and analysis and dev...
To present a summary of frequency domain and time domain procedures for aeroelasticity by using non-...
This paper describes a recent development of an integrated fully coupled aeroservoelastic flight dyn...
Accomplishments and current research projects along four main thrusts in aeroservoelasticity at the ...
Efficient analytical and computational tools for simultaneous optimal design of the structural and c...
In the last two decades there have been extensive developments in computational unsteady transonic a...
Unsteady aerodynamic modeling techniques are developed and applied to the study of active control of...
Due to the requirement of increased performance and maneuverability, the flight envelope of a modern...
Modifications to a three dimensional, implicit, upwind, unstructured-grid Euler code for aeroelastic...
This thesis concerns the development of computational methods for efficient flexible-aircraft flight...
Various control analysis, design, and simulation techniques for aeroelastic applications require the...
The lightweight structures and unconventional configurations being considered for the next generatio...
Is known that aeroservoelasticity is a multidisciplinary study for the interactions of three discipl...
A short theoretical study of aircraft aerodynamic model equations with unsteady effects is presented...
A new time-domain approach for computing flutter speed is presented. Based on the time-history resul...
This monograph presents the state of the art in aeroservoelastic (ASE) modeling and analysis and dev...
To present a summary of frequency domain and time domain procedures for aeroelasticity by using non-...
This paper describes a recent development of an integrated fully coupled aeroservoelastic flight dyn...
Accomplishments and current research projects along four main thrusts in aeroservoelasticity at the ...
Efficient analytical and computational tools for simultaneous optimal design of the structural and c...
In the last two decades there have been extensive developments in computational unsteady transonic a...
Unsteady aerodynamic modeling techniques are developed and applied to the study of active control of...
Due to the requirement of increased performance and maneuverability, the flight envelope of a modern...
Modifications to a three dimensional, implicit, upwind, unstructured-grid Euler code for aeroelastic...
This thesis concerns the development of computational methods for efficient flexible-aircraft flight...