Add to ORKGIn this paper the exact discrete adjoint of a finite volume formulation on unstructured meshes for the Euler equations in two dimensions is derived and implemented to support aerodynamic shape optimization. The accuracy of the discrete exact adjoint is demonstrated and compared with that of the approximate adjoint. A solution process for the adjoint equations, which is similar to that used for the flow equations, is modified to account for multiple functionals. An optimization framework, which couples an analytical shape parameterization to the flow/adjoint solver and to a Sequential Quadratic Programming optimization algorithm, is tested on constrained and unconstrained airfoil design cases. Preliminary results are also presented for a Seq...
Gradient-based aerodynamic shape optimization, based on Computational Fluid Dynamics analysis of the...
Gradient-based aerodynamic shape optimization, based on Computational Fluid Dynamics analysis of the...
Within the next few years, numerical shape optimization based on high fidelity methods is likely to ...
In this paper, the exact discrete adjoint of an unstructured finite-volume formulation of the Euler ...
In this paper, the exact discrete adjoint of an unstructured finite-volume formulation of the Euler ...
In this paper, the exact discrete adjoint of an unstructured finite-volume formulation of the Euler ...
In this paper, the exact discrete adjoint of an unstructured finite-volume formulation of the Euler ...
In this paper, the exact discrete adjoint of an unstructured finite-volume formulation of the Euler ...
In this paper the exact discrete adjoint of a finite volume formulation on unstructured meshes for t...
An adjoint system of the Euler equations of gas dynamics is derived in order to solve aerodynamic sh...
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 methodology for aerodynamic shape optimization on two-dimensional unstructured grids using Euler e...
This paper studies the effect of design variables vector on automatic aerodynamic shape optimization...
Numerical shape optimization will play a strategic role for future aircraft design. It offers the po...
Gradient-based aerodynamic shape optimization, based on Computational Fluid Dynamics analysis of the...
Gradient-based aerodynamic shape optimization, based on Computational Fluid Dynamics analysis of the...
Within the next few years, numerical shape optimization based on high fidelity methods is likely to ...
In this paper, the exact discrete adjoint of an unstructured finite-volume formulation of the Euler ...
In this paper, the exact discrete adjoint of an unstructured finite-volume formulation of the Euler ...
In this paper, the exact discrete adjoint of an unstructured finite-volume formulation of the Euler ...
In this paper, the exact discrete adjoint of an unstructured finite-volume formulation of the Euler ...
In this paper, the exact discrete adjoint of an unstructured finite-volume formulation of the Euler ...
In this paper the exact discrete adjoint of a finite volume formulation on unstructured meshes for t...
An adjoint system of the Euler equations of gas dynamics is derived in order to solve aerodynamic sh...
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 methodology for aerodynamic shape optimization on two-dimensional unstructured grids using Euler e...
This paper studies the effect of design variables vector on automatic aerodynamic shape optimization...
Numerical shape optimization will play a strategic role for future aircraft design. It offers the po...
Gradient-based aerodynamic shape optimization, based on Computational Fluid Dynamics analysis of the...
Gradient-based aerodynamic shape optimization, based on Computational Fluid Dynamics analysis of the...
Within the next few years, numerical shape optimization based on high fidelity methods is likely to ...