Multivariable search techniques are applied to a particular class of airfoil optimization problems. These are the maximization of lift and the minimization of disturbance pressure magnitude in an inviscid nonlinear flow field. A variety of multivariable search techniques contained in an existing nonlinear optimization code, AESOP, are applied to this design problem. These techniques include elementary single parameter perturbation methods, organized search such as steepest-descent, quadratic, and Davidon methods, randomized procedures, and a generalized search acceleration technique. Airfoil design variables are seven in number and define perturbations to the profile of an existing NACA airfoil. The relative efficiency of the techniques are...
Application of steepest descent method to trajectory optimization and aircraft performance problem
A method is presented for numerical airfoil optimization whereby a reduced number of design coordina...
A computer program developed for the automated design of low speed airfoils utilizes a generalized J...
A practical procedure for the optimum design of low-speed airfoils is demonstrated. The procedure us...
A practical procedure for optimum design of aerodynamic shapes is demonstrated. The proposed procedu...
A study is reported on geometry optimization techniques for high-lift airfoils. A modern three-eleme...
A small perturbation potential flow theory is applied to the problem of determining the chordwise pr...
A simple, two dimensional, incompressible and inviscid model for the problem posed by a two dimensio...
The papers collected in this volume were presented at the Symposium on Mathematical Optimization Tec...
A multiblock, discrete sensitivity analysis method is used to couple a direct optimization method an...
The goal was to find airfoil shapes which maximize the ratio of lift over drag for given flow condit...
A low speed airfoil design and analysis program was developed which contains several unique features...
A modern three element airfoil model with a remotely activated flap was used to investigate optimum ...
Theoretical pressure distributions on nonlifting circular-arc airfoils in two-dimensional flows with...
Method system, and product from application of the method, for design of a subsonic airfoil shape, b...
Application of steepest descent method to trajectory optimization and aircraft performance problem
A method is presented for numerical airfoil optimization whereby a reduced number of design coordina...
A computer program developed for the automated design of low speed airfoils utilizes a generalized J...
A practical procedure for the optimum design of low-speed airfoils is demonstrated. The procedure us...
A practical procedure for optimum design of aerodynamic shapes is demonstrated. The proposed procedu...
A study is reported on geometry optimization techniques for high-lift airfoils. A modern three-eleme...
A small perturbation potential flow theory is applied to the problem of determining the chordwise pr...
A simple, two dimensional, incompressible and inviscid model for the problem posed by a two dimensio...
The papers collected in this volume were presented at the Symposium on Mathematical Optimization Tec...
A multiblock, discrete sensitivity analysis method is used to couple a direct optimization method an...
The goal was to find airfoil shapes which maximize the ratio of lift over drag for given flow condit...
A low speed airfoil design and analysis program was developed which contains several unique features...
A modern three element airfoil model with a remotely activated flap was used to investigate optimum ...
Theoretical pressure distributions on nonlifting circular-arc airfoils in two-dimensional flows with...
Method system, and product from application of the method, for design of a subsonic airfoil shape, b...
Application of steepest descent method to trajectory optimization and aircraft performance problem
A method is presented for numerical airfoil optimization whereby a reduced number of design coordina...
A computer program developed for the automated design of low speed airfoils utilizes a generalized J...