In this paper, the continuous adjoint method, developed by NTUA in the Open-FOAM R environment, is coupled with an RBF-based morpher developed by UTV to tackle optimization problems in low-speed aeronautics. The adjoint method provides a fast and accurate way for computing the sensitivity derivatives of the objective functions (here, drag, lift and losses) with respect to the design variables. The latter are defined as a set of variables controlling a group of RBF control points used to deform both the surface and volume mesh of the computational domain. The use of the RBF-based morpher provides a fast and robust way of handling mesh and geometry deformations, facing two challenging tasks related to shape optimization with the same tool. Th...
Adjoint optimization is an exciting and fast growing field that has many applications in the automot...
Increasing environmental awareness has led to changes in motorsport regulations that limit the quant...
The present paper aims to describe the potential of the adjoint technique for aerodynamic shape opti...
In this paper, the continuous adjoint method, developed by NTUA in the Open-FOAM R environment, is c...
This paper presents a new framework for Aerodynamic Shape Optimization (ASO) implemented inside the ...
This paper demonstrates the solution of industrial aerodynamic shape optimization problems using the...
Numerical shape optimization will play a strategic role for future aircraft design. It offers the po...
Numerical shape optimization will play a strategic role for future aircraft design. It offers the po...
A robust workflow for shape optimisation of internal and external flows with application to automoti...
An adjoint-based Trim-Corrected Optimization Strategy (TCOS) with active engines is presented with a...
Purpose - The present paper aims to address the description of a numerical optimization procedure, b...
A high-fidelity adjoint-based aerodynamic shape optimization process has been set up that engages th...
Aerospace industry is increasingly relying on advanced numerical flow simulation tools in the early ...
In this paper a gradient based optimization chain for aerodynamic shape optimization is described. T...
Gradient-based aerodynamic shape optimization, based on Computational Fluid Dynamics analysis of the...
Adjoint optimization is an exciting and fast growing field that has many applications in the automot...
Increasing environmental awareness has led to changes in motorsport regulations that limit the quant...
The present paper aims to describe the potential of the adjoint technique for aerodynamic shape opti...
In this paper, the continuous adjoint method, developed by NTUA in the Open-FOAM R environment, is c...
This paper presents a new framework for Aerodynamic Shape Optimization (ASO) implemented inside the ...
This paper demonstrates the solution of industrial aerodynamic shape optimization problems using the...
Numerical shape optimization will play a strategic role for future aircraft design. It offers the po...
Numerical shape optimization will play a strategic role for future aircraft design. It offers the po...
A robust workflow for shape optimisation of internal and external flows with application to automoti...
An adjoint-based Trim-Corrected Optimization Strategy (TCOS) with active engines is presented with a...
Purpose - The present paper aims to address the description of a numerical optimization procedure, b...
A high-fidelity adjoint-based aerodynamic shape optimization process has been set up that engages th...
Aerospace industry is increasingly relying on advanced numerical flow simulation tools in the early ...
In this paper a gradient based optimization chain for aerodynamic shape optimization is described. T...
Gradient-based aerodynamic shape optimization, based on Computational Fluid Dynamics analysis of the...
Adjoint optimization is an exciting and fast growing field that has many applications in the automot...
Increasing environmental awareness has led to changes in motorsport regulations that limit the quant...
The present paper aims to describe the potential of the adjoint technique for aerodynamic shape opti...