An optimization methodology based on neural networks was developed for use in 2D optimal shape design problems. Neural networks were used as a parameterization scheme to represent the shape function, and an edge-based high-resolution scheme for the solution of the compressible Euler equations was used to model the flow around the shape. The global system incorporates neural networks and the Euler fluid solver into the C++ Flood optimization framework containing a library of optimization algorithms. The optimization scheme was applied to a minimal drag problem in an unconstrained optimization case and a constrained case in hypersonic flow using evolutionary training algorithms. The results indicate that the minimum drag problem is solved to ...
Aerospace industry is increasingly relying on advanced numerical flow simulation tools in the early ...
The increased need to design higher performing aerodynamic shapes has led to design optimization cyc...
Gradient-based aerodynamic shape optimization, based on Computational Fluid Dynamics analysis of the...
An optimization methodology based on neural networks was developed for use in 2D optimal shape desig...
An efficient computational framework is presented and applied to the inverse aerodynamic shape desig...
An aerodynamic shape optimization method that uses an evolutionary algorithm known at Differential E...
This paper presents an optimization method integrating automated CAD-based Computational Fluid Dynam...
Modern computational and experimental tools for aerodynamics and propulsion applications have mature...
Modern computational and experimental tools for aerodynamics and propulsion applications have mature...
Advances in numerical optimization have raised the possibility that efficient and novel aircraft con...
The high-lift performance of a multi-element airfoil was optimized by using neural-net predictions t...
This paper presents a Neural Network-based Response Surface Method for reducing the cost of computer...
A recently developed neural net-based aerodynamic design procedure is used in the redesign of a tran...
Aerodynamic shape optimization of gas turbine blades is a very challenging task, given e.g. the flow...
The Direct Numerical Optimization (DNO) approach for airfoil shape design requires the integration o...
Aerospace industry is increasingly relying on advanced numerical flow simulation tools in the early ...
The increased need to design higher performing aerodynamic shapes has led to design optimization cyc...
Gradient-based aerodynamic shape optimization, based on Computational Fluid Dynamics analysis of the...
An optimization methodology based on neural networks was developed for use in 2D optimal shape desig...
An efficient computational framework is presented and applied to the inverse aerodynamic shape desig...
An aerodynamic shape optimization method that uses an evolutionary algorithm known at Differential E...
This paper presents an optimization method integrating automated CAD-based Computational Fluid Dynam...
Modern computational and experimental tools for aerodynamics and propulsion applications have mature...
Modern computational and experimental tools for aerodynamics and propulsion applications have mature...
Advances in numerical optimization have raised the possibility that efficient and novel aircraft con...
The high-lift performance of a multi-element airfoil was optimized by using neural-net predictions t...
This paper presents a Neural Network-based Response Surface Method for reducing the cost of computer...
A recently developed neural net-based aerodynamic design procedure is used in the redesign of a tran...
Aerodynamic shape optimization of gas turbine blades is a very challenging task, given e.g. the flow...
The Direct Numerical Optimization (DNO) approach for airfoil shape design requires the integration o...
Aerospace industry is increasingly relying on advanced numerical flow simulation tools in the early ...
The increased need to design higher performing aerodynamic shapes has led to design optimization cyc...
Gradient-based aerodynamic shape optimization, based on Computational Fluid Dynamics analysis of the...