A direct-inverse approach to the transonic design problem was presented in its initial state at the First International Conference on Inverse Design Concepts and Optimization in Engineering Sciences (ICIDES-1). Further applications of the direct inverse analogy (DIVA) method to the design of airfoils and incremental wing improvements and experimental verification are reported. First results of a new viscous design code also from the residual correction type with semi-inverse boundary layer coupling are compared with DIVA which may enhance the accuracy of trailing edge design for highly loaded airfoils. Finally, the capabilities of an optimization routine coupled with the two viscous full potential solvers are investigated in comparison to t...
The DLR inverse design code computes the wing geometry for a prescribed target pressure distribution...
An aerodynamic inverse design method for viscous flow over airfoils is presented. In this approach, ...
The aerodynamic design of classical and innovative nozzle concepts is investigated by an inverse me...
Several inverse methods were compared and initial results indicate that differences in results are p...
A numerical technique to solve two-dimensional inverse problems that arise in aerodynamic design is ...
The direct-inverse technique was developed into a numerical method, called TRANDES, that is suitable...
A numerical technique for designing transonic airfoils having a prescribed pressure distribution (th...
An inverse wing design method was developed around an existing transonic wing analysis code. The ori...
The aerodynamic inverse design approach consists of finding the ge-ometry that produces a desired (t...
The results are reported of the research on the viscous interactions effects on transonic airfoil de...
Several inverse methods have been compared and initial results indicate that differences in results ...
Presented is an effective procedure for aerodynamic design of transonic wings, based on joint use o...
A hybrid inverse/direct-optimization method for subsonic/transonic airfoil and wing shape design is ...
Aerodynamic characteristics are very sensitive to airfoil leading-edge geometry, and its accurate tr...
Some ideas for using hodograph theory, mapping techniques and methods of characteristics to formulat...
The DLR inverse design code computes the wing geometry for a prescribed target pressure distribution...
An aerodynamic inverse design method for viscous flow over airfoils is presented. In this approach, ...
The aerodynamic design of classical and innovative nozzle concepts is investigated by an inverse me...
Several inverse methods were compared and initial results indicate that differences in results are p...
A numerical technique to solve two-dimensional inverse problems that arise in aerodynamic design is ...
The direct-inverse technique was developed into a numerical method, called TRANDES, that is suitable...
A numerical technique for designing transonic airfoils having a prescribed pressure distribution (th...
An inverse wing design method was developed around an existing transonic wing analysis code. The ori...
The aerodynamic inverse design approach consists of finding the ge-ometry that produces a desired (t...
The results are reported of the research on the viscous interactions effects on transonic airfoil de...
Several inverse methods have been compared and initial results indicate that differences in results ...
Presented is an effective procedure for aerodynamic design of transonic wings, based on joint use o...
A hybrid inverse/direct-optimization method for subsonic/transonic airfoil and wing shape design is ...
Aerodynamic characteristics are very sensitive to airfoil leading-edge geometry, and its accurate tr...
Some ideas for using hodograph theory, mapping techniques and methods of characteristics to formulat...
The DLR inverse design code computes the wing geometry for a prescribed target pressure distribution...
An aerodynamic inverse design method for viscous flow over airfoils is presented. In this approach, ...
The aerodynamic design of classical and innovative nozzle concepts is investigated by an inverse me...