Add to ORKGA linearized theory wing design and optimization procedure which allows physical realism and practical considerations to be imposed as constraints on the optimum (least drag due to lift) solution is discussed and examples of application are presented. In addition to the usual constraints on lift and pitching moment, constraints are imposed on wing surface ordinates and wing upper surface pressure levels and gradients. The design procedure also provides the capability of including directly in the optimization process the effects of other aircraft components such as a fuselage, canards, and nacelles
A computational system for estimation of nonlinear aerodynamic characteristics of wings at supersoni...
This report describes results of research conducted from April 1991 through March 1992. The general ...
A theoretical investigation is made of the airfoil profile for minimum pressure drag at zero lift in...
A numerical method, based on linearized theory, for designing minimum-drag supersonic wing camber su...
The present work takes origin from studies carried out at the Department of Aerospace Engineering of...
A practical procedure for optimum design of aerodynamic shapes is demonstrated. The proposed procedu...
This paper describes methodology and an associated computer program for the design of wing lifting s...
The automated optimum design of airplane wing structures subjected to multiple behavior constraints ...
An optimization system is described that consists of the finite-element analysis program known as En...
A practical procedure for the optimum design of transonic wings is demonstrated. The procedure uses ...
A practical procedure for the optimum design of low-speed airfoils is demonstrated. The procedure us...
The minimization of inviscid fluid drag is studied for aerodynamic shapes satisfying the conditions ...
An aerodynamic optimization procedure developed to minimize the drag to lift ratio of an aircraft co...
A wind-tunnel study was conducted to determine the capability of a method combining linear theory an...
Supersonic manoeuvring aircraft are designed to be efficient during aerobatic or high-load flight co...
A computational system for estimation of nonlinear aerodynamic characteristics of wings at supersoni...
This report describes results of research conducted from April 1991 through March 1992. The general ...
A theoretical investigation is made of the airfoil profile for minimum pressure drag at zero lift in...
A numerical method, based on linearized theory, for designing minimum-drag supersonic wing camber su...
The present work takes origin from studies carried out at the Department of Aerospace Engineering of...
A practical procedure for optimum design of aerodynamic shapes is demonstrated. The proposed procedu...
This paper describes methodology and an associated computer program for the design of wing lifting s...
The automated optimum design of airplane wing structures subjected to multiple behavior constraints ...
An optimization system is described that consists of the finite-element analysis program known as En...
A practical procedure for the optimum design of transonic wings is demonstrated. The procedure uses ...
A practical procedure for the optimum design of low-speed airfoils is demonstrated. The procedure us...
The minimization of inviscid fluid drag is studied for aerodynamic shapes satisfying the conditions ...
An aerodynamic optimization procedure developed to minimize the drag to lift ratio of an aircraft co...
A wind-tunnel study was conducted to determine the capability of a method combining linear theory an...
Supersonic manoeuvring aircraft are designed to be efficient during aerobatic or high-load flight co...
A computational system for estimation of nonlinear aerodynamic characteristics of wings at supersoni...
This report describes results of research conducted from April 1991 through March 1992. The general ...
A theoretical investigation is made of the airfoil profile for minimum pressure drag at zero lift in...