In this preliminary study involving advanced computational fluid dynamic (CFD) codes, an incremental formulation, also known as the 'delta' or 'correction' form, is presented for solving the very large sparse systems of linear equations which are associated with aerodynamic sensitivity analysis. For typical problems in 2D, a direct solution method can be applied to these linear equations which are associated with aerodynamic sensitivity analysis. For typical problems in 2D, a direct solution method can be applied to these linear equations in either the standard or the incremental form, in which case the two are equivalent. Iterative methods appear to be needed for future 3D applications; however, because direct solver methods require much m...
A new and efficient procedure for aerodynamic shape optimization is presented. The salient lineament...
We report on development and validation of a discrete sensitivity solver for the BAE SYSTEMS/Airbus...
We compute flow sensitivities by modifying a CFD code which is spatially-discretized with spectral d...
In this preliminary study involving advanced CFD codes, an incremental for-mulation, also known as t...
In this study involving advanced fluid flow codes, an incremental iterative formulation (also known ...
In this study which involves advanced fluid-flow codes, an incremental iterative formulation (also k...
An incremental iterative formulation together with the well-known spatially split approximate-factor...
Accurate computation of sensitivity derivatives is becoming an important item in Computational Fluid...
This paper solves an 'incremental' form of the sensitivity equations derived by differentiating the ...
An efficient incremental iterative approach for differentiating advanced flow codes is successfully ...
Automated multidisciplinary design of aircraft and other ight vehicles requires the optimization of ...
Aerodynamic sensitivity analysis codes are developed via the hand-differentiation using a direct dif...
A hybrid automatic differentiation/incremental iterative method was implemented in the general purpo...
AbstractA discrete semianalytical sensitivity analysis procedure has been developed for calculating ...
Automatic differentiation (AD) is a powerful computational method that provides for computing exact ...
A new and efficient procedure for aerodynamic shape optimization is presented. The salient lineament...
We report on development and validation of a discrete sensitivity solver for the BAE SYSTEMS/Airbus...
We compute flow sensitivities by modifying a CFD code which is spatially-discretized with spectral d...
In this preliminary study involving advanced CFD codes, an incremental for-mulation, also known as t...
In this study involving advanced fluid flow codes, an incremental iterative formulation (also known ...
In this study which involves advanced fluid-flow codes, an incremental iterative formulation (also k...
An incremental iterative formulation together with the well-known spatially split approximate-factor...
Accurate computation of sensitivity derivatives is becoming an important item in Computational Fluid...
This paper solves an 'incremental' form of the sensitivity equations derived by differentiating the ...
An efficient incremental iterative approach for differentiating advanced flow codes is successfully ...
Automated multidisciplinary design of aircraft and other ight vehicles requires the optimization of ...
Aerodynamic sensitivity analysis codes are developed via the hand-differentiation using a direct dif...
A hybrid automatic differentiation/incremental iterative method was implemented in the general purpo...
AbstractA discrete semianalytical sensitivity analysis procedure has been developed for calculating ...
Automatic differentiation (AD) is a powerful computational method that provides for computing exact ...
A new and efficient procedure for aerodynamic shape optimization is presented. The salient lineament...
We report on development and validation of a discrete sensitivity solver for the BAE SYSTEMS/Airbus...
We compute flow sensitivities by modifying a CFD code which is spatially-discretized with spectral d...