This paper presents a wing aerostructural optimization framework based on the Individual Discipline Feasible (IDF) architecture. Using the IDF architecture the aerodynamic and the structure disciplines are decoupled in the analysis level and the optimizer is responsible for the consistency of the design. The SU2 CFD code is used for the aerodynamic analysis and the FEMWET software is used for the structural analysis. The SU2 code is modified in a way to receive the structural deformation as inputs and compute the sensitivity of the outputs, e.g. drag, with respect to the deformation. An Airbus A320 type aircraft is used as a test case for the optimization. A reduction of the aircraft fuel weight of 11% is achieved. This reduction was attain...
The demand for more efficient and lighter structural components has shifted focus to formal optimiza...
The application and computational efficiency of wing aerostructural optimization us- ing simultaneou...
In the current generation, aircrafts became the fastest mode of transportation for goods and passeng...
This paper presents a wing aerostructural optimization framework based on the Indi-vidual Discipline...
At present, on the aviation market a need exists for lighter and more efficient aircraft than the on...
Aero–structural optimisation is a challenging aspect of aircraft design. The state–of–the–art in thi...
As computing technology improves, and the need for better designed aircraft structures rises, enhanc...
In order to explore and exploit the full potential of aircraft design, the aircraft must be designed...
This article presents the development and application of a high-fidelity simulation process chain fo...
A strategy is presented to optimize wing structures under static aeroelastic constraints with respec...
An optimization technique called shape-linked optimization, which is different from the traditional ...
A series of novel algorithms for performing aerostructural shape and topology optimization are intro...
Novel aircraft concepts employing ultrahigh-aspect-ratio wings, such as the strut-braced wing (SBW) ...
This paper presents a new biomimetic approach to the structural design. For the purpose of aircraft ...
Based on a quasi-steady mission in a vertical plane, this paper presents an analytical derivation to...
The demand for more efficient and lighter structural components has shifted focus to formal optimiza...
The application and computational efficiency of wing aerostructural optimization us- ing simultaneou...
In the current generation, aircrafts became the fastest mode of transportation for goods and passeng...
This paper presents a wing aerostructural optimization framework based on the Indi-vidual Discipline...
At present, on the aviation market a need exists for lighter and more efficient aircraft than the on...
Aero–structural optimisation is a challenging aspect of aircraft design. The state–of–the–art in thi...
As computing technology improves, and the need for better designed aircraft structures rises, enhanc...
In order to explore and exploit the full potential of aircraft design, the aircraft must be designed...
This article presents the development and application of a high-fidelity simulation process chain fo...
A strategy is presented to optimize wing structures under static aeroelastic constraints with respec...
An optimization technique called shape-linked optimization, which is different from the traditional ...
A series of novel algorithms for performing aerostructural shape and topology optimization are intro...
Novel aircraft concepts employing ultrahigh-aspect-ratio wings, such as the strut-braced wing (SBW) ...
This paper presents a new biomimetic approach to the structural design. For the purpose of aircraft ...
Based on a quasi-steady mission in a vertical plane, this paper presents an analytical derivation to...
The demand for more efficient and lighter structural components has shifted focus to formal optimiza...
The application and computational efficiency of wing aerostructural optimization us- ing simultaneou...
In the current generation, aircrafts became the fastest mode of transportation for goods and passeng...