A continuous adjoint approach for obtaining sensitivity derivatives on unstructured grids is developed and analyzed. The derivation of the costate equations is presented, and a second-order accurate discretization method is described. The relationship between the continuous formulation and a discrete formulation is explored for inviscid, as well as for viscous flow. Several limitations in a strict adherence to the continuous approach are uncovered, and an approach that circumvents these diculties is presented. The issue of grid sensitivities, which do not arise naturally in the continuous formulation, is investigated and is observed to be of importance when dealing with geometric singularities. A method is described for modifying inviscid a...
Recent improvements in an unstructured-grid method for large-scale aerodynamic design are presented....
Gradient-based aerodynamic shape optimization, based on Computational Fluid Dynamics analysis of the...
A new method for shape optimization for unsteady viscous flows is presented. It is based on the cont...
A discrete adjoint method is developed and demonstrated for aerodynamic design optimization on unstr...
In this paper, the continuous adjoint method to compute shape sensitivities in aerodynamic design wi...
Aerodynamic design optimization has been an important area of research for many years. Although some...
A discrete adjoint method is developed and demonstrated for aerodynamic design optimization on unstr...
This article presents the development and application of a new unsteady continuous ad-joint formulat...
This paper compares the continuous and discrete viscous adjoint-based automatic aerodynamic opti-miz...
This paper presents the development and application of a newunsteady continuous adjoint formulation ...
These lecture notes, prepared for the 1997 VKI Lecture Course on Inverse Design, discuss the use of ...
A systematic methodology for formulating, implementing, solving and verifying discrete adjoint of th...
This paper describes the formulation of optimization techniques based on control theory for aerodyna...
We present a new approach for the computation of shape sensitivities using the discrete adjoint and ...
A methodology for aerodynamic shape optimization on two-dimensional unstructured grids using Euler e...
Recent improvements in an unstructured-grid method for large-scale aerodynamic design are presented....
Gradient-based aerodynamic shape optimization, based on Computational Fluid Dynamics analysis of the...
A new method for shape optimization for unsteady viscous flows is presented. It is based on the cont...
A discrete adjoint method is developed and demonstrated for aerodynamic design optimization on unstr...
In this paper, the continuous adjoint method to compute shape sensitivities in aerodynamic design wi...
Aerodynamic design optimization has been an important area of research for many years. Although some...
A discrete adjoint method is developed and demonstrated for aerodynamic design optimization on unstr...
This article presents the development and application of a new unsteady continuous ad-joint formulat...
This paper compares the continuous and discrete viscous adjoint-based automatic aerodynamic opti-miz...
This paper presents the development and application of a newunsteady continuous adjoint formulation ...
These lecture notes, prepared for the 1997 VKI Lecture Course on Inverse Design, discuss the use of ...
A systematic methodology for formulating, implementing, solving and verifying discrete adjoint of th...
This paper describes the formulation of optimization techniques based on control theory for aerodyna...
We present a new approach for the computation of shape sensitivities using the discrete adjoint and ...
A methodology for aerodynamic shape optimization on two-dimensional unstructured grids using Euler e...
Recent improvements in an unstructured-grid method for large-scale aerodynamic design are presented....
Gradient-based aerodynamic shape optimization, based on Computational Fluid Dynamics analysis of the...
A new method for shape optimization for unsteady viscous flows is presented. It is based on the cont...