Add to ORKGA Sequential Linear Programming technique, known as the method of centers, is the driver of an aerodynamic shape optimization framework on unstructured meshes. The first order information required by this technique, functional values and their gradients, are computed by a median-dual flow/adjoint solver which is coupled to an analytical shape parameterization. Functional and geometric constraints are easily handled by the algorithm which appears to be very effective in obtaining efficiently near-optimal designs. Shape optimization results are presented for transonic as well as supersonic flows involving appreciable shape deformations
In this paper, the exact discrete adjoint of an unstructured finite-volume formulation of the Euler ...
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...
An optimization framework for aerodynamic design on unstructured meshes has been implemented. It inc...
An optimization framework for aerodynamic design on unstructured meshes has been implemented. It inc...
An optimization framework for aerodynamic design on unstructured meshes has been implemented. It inc...
In this paper the exact discrete adjoint of a finite volume formulation on unstructured meshes for t...
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...
In this paper the exact discrete adjoint of a finite volume formulation on unstructured meshes for t...
Numerical shape optimization will play a strategic role for future aircraft design. It offers the po...
. In this paper, a method based on the optimal control theory for the solution of shape optimization...
Advances in numerical optimization have raised the possibility that efficient and novel aircraft con...
Advances in numerical optimization have raised the possibility that efficient and novel aircraft con...
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 ...
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...
An optimization framework for aerodynamic design on unstructured meshes has been implemented. It inc...
An optimization framework for aerodynamic design on unstructured meshes has been implemented. It inc...
An optimization framework for aerodynamic design on unstructured meshes has been implemented. It inc...
In this paper the exact discrete adjoint of a finite volume formulation on unstructured meshes for t...
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...
In this paper the exact discrete adjoint of a finite volume formulation on unstructured meshes for t...
Numerical shape optimization will play a strategic role for future aircraft design. It offers the po...
. In this paper, a method based on the optimal control theory for the solution of shape optimization...
Advances in numerical optimization have raised the possibility that efficient and novel aircraft con...
Advances in numerical optimization have raised the possibility that efficient and novel aircraft con...
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 ...
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...