abstract: This paper describes an aircraft design optimization tool for wave drag reduction. The tool synthesizes an aircraft wing and fuselage geometry using the Rhinoceros CAD program. It then implements an algorithm to perform area-ruling on the fuselage. The algorithm adjusts the cross-sectional area along the length of the fuselage, with the wing geometry fixed, to match a Sears-Haack distribution. Following the optimization of the area, the tool collects geometric data for analysis using legacy performance tools. This analysis revealed that performing the optimization yielded an average reduction in wave drag of 25% across a variety of Mach numbers on two different starting geometries. The goal of this project is to integrate this opt...
A gradient-based aeroelastic shape optimization framework making use of a reduced or model to substi...
The work deals with the use of geometric parameterization for shape description of some parts of the...
The impact of dimensionality on three aerodynamic optimization cases is studied to determine the eff...
The geometry of a typical regional transport aircraft is modified to reduce drag and improve perf...
A new parametrization method for aircraft shapes is presented to enhance shape optimization for airc...
Advances in numerical optimization have raised the possibility that efficient and novel aircraft con...
The paper focuses on the shape optimization, based on the resultant aerodynamic forces, of a simplif...
A new design approach for a delicate treatment of complex geometries such as wing/body configuration...
In a preliminary design environment, the designer needs to have freedom to quickly evaluate di#erent...
In the area of aircraft design, many studies about Multi Disciplinary Optimization (MDO) and Multi O...
This thesis focuses on the development of a Computer-Aided-Design (CAD)-based geometry parameterizat...
The aircraft industry has been at the forefront in developing design optimization strategies ever si...
The Multi-Disciplinary Design Optimisation (MDO) process can be supported by partial automation of a...
An adjoint-based Trim-Corrected Optimization Strategy (TCOS) with active engines is presented with a...
This article introduces a high-fidelity geometry definition methodology enabling Multidisciplinary D...
A gradient-based aeroelastic shape optimization framework making use of a reduced or model to substi...
The work deals with the use of geometric parameterization for shape description of some parts of the...
The impact of dimensionality on three aerodynamic optimization cases is studied to determine the eff...
The geometry of a typical regional transport aircraft is modified to reduce drag and improve perf...
A new parametrization method for aircraft shapes is presented to enhance shape optimization for airc...
Advances in numerical optimization have raised the possibility that efficient and novel aircraft con...
The paper focuses on the shape optimization, based on the resultant aerodynamic forces, of a simplif...
A new design approach for a delicate treatment of complex geometries such as wing/body configuration...
In a preliminary design environment, the designer needs to have freedom to quickly evaluate di#erent...
In the area of aircraft design, many studies about Multi Disciplinary Optimization (MDO) and Multi O...
This thesis focuses on the development of a Computer-Aided-Design (CAD)-based geometry parameterizat...
The aircraft industry has been at the forefront in developing design optimization strategies ever si...
The Multi-Disciplinary Design Optimisation (MDO) process can be supported by partial automation of a...
An adjoint-based Trim-Corrected Optimization Strategy (TCOS) with active engines is presented with a...
This article introduces a high-fidelity geometry definition methodology enabling Multidisciplinary D...
A gradient-based aeroelastic shape optimization framework making use of a reduced or model to substi...
The work deals with the use of geometric parameterization for shape description of some parts of the...
The impact of dimensionality on three aerodynamic optimization cases is studied to determine the eff...