Handling a large number of geometric constraints brings a big challenge to the surrogate-based aerodynamic shape optimization (ASO) driven by computational fluid dynamics (CFD). It is not feasible to calculate the geometric constraint functions directly during the sub-optimization of a surrogate-based optimization, as the geometric constraint functions are to be evaluated thousands of times for each updating cycle and the total cost of a number of cycles can be prohibitive. This article proposes an efficient method of handling geometric constraints within the framework of a surrogate-based optimization to address this problem. The core idea is to use the Kreisselmeier-Steinhauser (KS) method to aggregate all geometric constraints into one t...
We will present surrogate-based robust shape optimization of transonic airfoils. A large number of g...
The aerodynamic optimization framework Jetstream is applied to problems involving lift-constrained d...
For multi-scenario airfoil shape optimization problems, an evaluation of a single airfoil is based o...
Aerodynamic shape optimization driven by high-fidelity computational fluid dynamics (CFD) simulation...
The surrogate-assisted optimization (SAO) process can utilize the knowledge contained in the surroga...
The aerodynamic optimization community has recently started an effort to develop benchmark problems ...
This paper deals with developing an efficient Robust Design Optimization (RDO) framework. The goal i...
Advances in numerical optimization have raised the possibility that efficient and novel aircraft con...
The growth of computer power and storage capacity allowed engineers to tackle engineering design as ...
AbstractThis paper presents a space mapping algorithm for airfoil shape optimization enhanced with a...
Aerodynamic design, like many other engineering applications, is increasingly relying on computation...
The impact of dimensionality on three aerodynamic optimization cases is studied to determine the eff...
This paper presents the results of applying direct and surrogate-based optimization (SBO) algorithms...
Airfoil optimizations require costly high-fidelity solvers. By replacing the expensive solver with a...
An optimization framework combining TAU code with different options regarding the solver’s type, dif...
We will present surrogate-based robust shape optimization of transonic airfoils. A large number of g...
The aerodynamic optimization framework Jetstream is applied to problems involving lift-constrained d...
For multi-scenario airfoil shape optimization problems, an evaluation of a single airfoil is based o...
Aerodynamic shape optimization driven by high-fidelity computational fluid dynamics (CFD) simulation...
The surrogate-assisted optimization (SAO) process can utilize the knowledge contained in the surroga...
The aerodynamic optimization community has recently started an effort to develop benchmark problems ...
This paper deals with developing an efficient Robust Design Optimization (RDO) framework. The goal i...
Advances in numerical optimization have raised the possibility that efficient and novel aircraft con...
The growth of computer power and storage capacity allowed engineers to tackle engineering design as ...
AbstractThis paper presents a space mapping algorithm for airfoil shape optimization enhanced with a...
Aerodynamic design, like many other engineering applications, is increasingly relying on computation...
The impact of dimensionality on three aerodynamic optimization cases is studied to determine the eff...
This paper presents the results of applying direct and surrogate-based optimization (SBO) algorithms...
Airfoil optimizations require costly high-fidelity solvers. By replacing the expensive solver with a...
An optimization framework combining TAU code with different options regarding the solver’s type, dif...
We will present surrogate-based robust shape optimization of transonic airfoils. A large number of g...
The aerodynamic optimization framework Jetstream is applied to problems involving lift-constrained d...
For multi-scenario airfoil shape optimization problems, an evaluation of a single airfoil is based o...