This work presents a reduced order model for gradient based aerodynamic shape optimization. The solution of the fluid Euler equations is converted to reduced Newton iterations by using the Least Squares Petrov-Galerkin projection. The reduced order basis is extracted by Proper Orthogonal Decomposition from snapshots based on the fluid state. The formulation distinguishes itself by obtaining the snapshots for all design parameters by solving a linear system of equations. Similarly, the reduced gradient formulation is derived by projecting the full-order model state onto the subspace spanned by the reduced basis. Auto-differentiation is used to evaluate the reduced Jacobian without forming the full fluid Jacobian explicitly during the reduced...
Introduction The focus of CFD applications has shifted to aerodynamic design. This shift has been m...
A gradient-based optimization procedure for use with aerodynamic optimization has been developed to ...
This paper describes the recent activities developed at ONERA in the field of aerodynamic shape opti...
This work presents a reduced order model for gradient based aerodynamic shape optimization. The solu...
An adjoint system of the Euler equations of gas dynamics is derived in order to solve aerodynamic sh...
An adaptive approach to using reduced-order models as surrogates in PDE-constrained optimization is ...
Gradient-based aerodynamic shape optimization, based on Computational Fluid Dynamics analysis of the...
We present a new continuous adjoint method for aerodynamic shape optimization using the Euler equati...
. In this paper, a method based on the optimal control theory for the solution of shape optimization...
Aerodynamic shape optimization based on high-fidelity models is a computational intensive endeavor. ...
The growth of computer power and storage capacity allowed engineers to tackle engineering design as ...
AbstractA reduced order modelling approach for predicting steady aerodynamic flows and loads data ba...
A reduced order modelling approach for predicting steady aerodynamic flows and loads data based on C...
A novel reduced-order modeling method based on proper orthogonal decomposition for predicting steady...
The advent and development of large-scale high-fidelity computational fluid dynamics (CFD) in aircra...
Introduction The focus of CFD applications has shifted to aerodynamic design. This shift has been m...
A gradient-based optimization procedure for use with aerodynamic optimization has been developed to ...
This paper describes the recent activities developed at ONERA in the field of aerodynamic shape opti...
This work presents a reduced order model for gradient based aerodynamic shape optimization. The solu...
An adjoint system of the Euler equations of gas dynamics is derived in order to solve aerodynamic sh...
An adaptive approach to using reduced-order models as surrogates in PDE-constrained optimization is ...
Gradient-based aerodynamic shape optimization, based on Computational Fluid Dynamics analysis of the...
We present a new continuous adjoint method for aerodynamic shape optimization using the Euler equati...
. In this paper, a method based on the optimal control theory for the solution of shape optimization...
Aerodynamic shape optimization based on high-fidelity models is a computational intensive endeavor. ...
The growth of computer power and storage capacity allowed engineers to tackle engineering design as ...
AbstractA reduced order modelling approach for predicting steady aerodynamic flows and loads data ba...
A reduced order modelling approach for predicting steady aerodynamic flows and loads data based on C...
A novel reduced-order modeling method based on proper orthogonal decomposition for predicting steady...
The advent and development of large-scale high-fidelity computational fluid dynamics (CFD) in aircra...
Introduction The focus of CFD applications has shifted to aerodynamic design. This shift has been m...
A gradient-based optimization procedure for use with aerodynamic optimization has been developed to ...
This paper describes the recent activities developed at ONERA in the field of aerodynamic shape opti...