The industrial aerodynamic design of helicopter rotor blades needs to consider the two typical flight conditions of hover and forward flight simultaneously. Here, this multi-objective design problem is tackled by using a genetic algorithm, coupled to rotor performance simulation tools. The turn-around time of an optimization loop is acceptable in an industrial design loop when using low-cost, low-fidelity tools such as the comprehensive rotorcraft code HOST, but becomes excessively high when employing high-fidelity models like CFD methods. To incorporate high-fidelity models into the optimization loop while maintaining a moderate computational cost, a Multi-Fidelity Optimization (MFO) strategy is proposed: as a preliminary step, a HOST-base...
This work presents a framework for the optimization of certain aspects of a British Experimental Rot...
Un cadre d'optimisation multi-Objectif pour les pales d'hélicoptère est développé en utilisant des m...
A robust optimization technique is developed for the aerodynamic shape optimization of a helicopter ...
The industrial aerodynamic design of helicopter rotor blades needs to consider the two typical fligh...
The aerodynamic design of helicopter rotor blades requires taking into accountedmultiple objectives ...
Industrial aerodynamic design optimization of helicopter rotor blades requires employ-ment of multi-...
The motivation of this work is to reduce the overall required computational resources of the aerodyn...
A novel variable-fidelity multi-objective optimization technique is applied to the design problem of...
This work explains the methodological setup of a variable fidelity framework for the aerodynamic opt...
The design of helicopter rotor blades is a challenging task. On the one hand, there are the demandin...
An optimization framework for helicopter rotors based on high-fidelity coupled CFD/CSM analyses is ...
International audienceA multi-objective strategy adapted to the aerodynamic concurrent optimization ...
La conception aérodynamique des pales du rotor principal d un hélicoptère doitsimultanément prendre ...
Described is a formal optimization procedure for helicopter rotor blade design which minimizes hover...
© 2018, American Institute of Aeronautics and Astronautics Inc, AIAA. All rights reserved. The Aerod...
This work presents a framework for the optimization of certain aspects of a British Experimental Rot...
Un cadre d'optimisation multi-Objectif pour les pales d'hélicoptère est développé en utilisant des m...
A robust optimization technique is developed for the aerodynamic shape optimization of a helicopter ...
The industrial aerodynamic design of helicopter rotor blades needs to consider the two typical fligh...
The aerodynamic design of helicopter rotor blades requires taking into accountedmultiple objectives ...
Industrial aerodynamic design optimization of helicopter rotor blades requires employ-ment of multi-...
The motivation of this work is to reduce the overall required computational resources of the aerodyn...
A novel variable-fidelity multi-objective optimization technique is applied to the design problem of...
This work explains the methodological setup of a variable fidelity framework for the aerodynamic opt...
The design of helicopter rotor blades is a challenging task. On the one hand, there are the demandin...
An optimization framework for helicopter rotors based on high-fidelity coupled CFD/CSM analyses is ...
International audienceA multi-objective strategy adapted to the aerodynamic concurrent optimization ...
La conception aérodynamique des pales du rotor principal d un hélicoptère doitsimultanément prendre ...
Described is a formal optimization procedure for helicopter rotor blade design which minimizes hover...
© 2018, American Institute of Aeronautics and Astronautics Inc, AIAA. All rights reserved. The Aerod...
This work presents a framework for the optimization of certain aspects of a British Experimental Rot...
Un cadre d'optimisation multi-Objectif pour les pales d'hélicoptère est développé en utilisant des m...
A robust optimization technique is developed for the aerodynamic shape optimization of a helicopter ...