A genetic algorithm (GA) is employed for the multi-objective shape optimization of the nose of a high-speed train. Aerodynamic problems observed at high speeds become still more relevant when traveling along a tunnel. The objective is to minimize both the aerodynamic drag and the amplitude of the pressure gradient of the compression wave when a train enters a tunnel. The main drawback of GA is the large number of evaluations need in the optimization process. Metamodels-based optimization is considered to overcome such problem. As a result, an explicit relationship between pressure gradient and geometrical parameters is obtained
With rapid development of urban rail transit, maglev trains, benefiting from its comfortable, energy...
With the increasing running speed, the aerodynamic issues of high-speed trains are being raised and ...
With the speed upgrade of the high-speed train, the aerodynamic drag becomes one of the key fac...
A genetic algorithm (GA) is employed for the multi-objective shape optimization of the nose of a hig...
The optimization of the nose shape of a high-speed train entering a tunnel has been performed using ...
Genetic algorithms (GA) have been used for the minimization of the aerodynamic drag of a train subje...
An aerodynamic optimization of the train aerodynamic characteristics in term of front wind action se...
Optimización multi-objetivo frente a varias direcciones del viento incidente del testero de un tren ...
\ua9 Civil-Comp Press, 2012. An aerodynamic optimization of the ICE 2 high-speed train nose in term ...
Increase in speed of new high-speed trains has led to new requirements for improvement of their aero...
The complex wake flow of high speed trains severely influences the running safety and amenity of the...
Aiming at shortening the design period and improve the design efficiency of the nose shape of high s...
A new procedure for the optimization of aerodynamic properties of trains is presented, where simple ...
The adjoint method is used in this paper for the aerodynamic optimization of the nose shape of a tra...
Abstract: The rapid development of very high speed trains and the increasing operational speeds of c...
With rapid development of urban rail transit, maglev trains, benefiting from its comfortable, energy...
With the increasing running speed, the aerodynamic issues of high-speed trains are being raised and ...
With the speed upgrade of the high-speed train, the aerodynamic drag becomes one of the key fac...
A genetic algorithm (GA) is employed for the multi-objective shape optimization of the nose of a hig...
The optimization of the nose shape of a high-speed train entering a tunnel has been performed using ...
Genetic algorithms (GA) have been used for the minimization of the aerodynamic drag of a train subje...
An aerodynamic optimization of the train aerodynamic characteristics in term of front wind action se...
Optimización multi-objetivo frente a varias direcciones del viento incidente del testero de un tren ...
\ua9 Civil-Comp Press, 2012. An aerodynamic optimization of the ICE 2 high-speed train nose in term ...
Increase in speed of new high-speed trains has led to new requirements for improvement of their aero...
The complex wake flow of high speed trains severely influences the running safety and amenity of the...
Aiming at shortening the design period and improve the design efficiency of the nose shape of high s...
A new procedure for the optimization of aerodynamic properties of trains is presented, where simple ...
The adjoint method is used in this paper for the aerodynamic optimization of the nose shape of a tra...
Abstract: The rapid development of very high speed trains and the increasing operational speeds of c...
With rapid development of urban rail transit, maglev trains, benefiting from its comfortable, energy...
With the increasing running speed, the aerodynamic issues of high-speed trains are being raised and ...
With the speed upgrade of the high-speed train, the aerodynamic drag becomes one of the key fac...