The high-lift performance of a multi-element airfoil was optimized by using neural-net predictions that were trained using a computational data set. The numerical data was generated using a two-dimensional, incompressible, Navier-Stokes algorithm with the Spalart-Allmaras turbulence model. Because it is difficult to predict maximum lift for high-lift systems, an empirically-based maximum lift criteria was used in this study to determine both the maximum lift and the angle at which it occurs. Multiple input, single output networks were trained using the NASA Ames variation of the Levenberg-Marquardt algorithm for each of the aerodynamic coefficients (lift, drag, and moment). The artificial neural networks were integrated with a gradient-base...
Artificial neural networks [ANNs] are an effective method for predicting and classifying variables. ...
The airfoil is the prime component of flying vehicles. For low-speed flights, low Reynolds number ai...
New high-lift components have been designed for a three-element advanced high-lift research airfoil ...
This paper discusses a neural network tool for more effective aircraft design evaluations during win...
In this paper, we employ a genetic algorithm (GA) for shape optimization of low Reynolds number airf...
This work proposes a novel multi-output neural network for the prediction of the lift coefficient of...
The ability of artificial neural networks (ANN) to model the unsteady aerodynamic force coefficients...
Trailing edge flaps (TEFs) are high-lift devices that generate changes in the lift and drag coeffici...
A recently developed neural net-based aerodynamic design procedure is used in the redesign of a tran...
An optimization methodology based on neural networks was developed for use in 2D optimal shape desig...
A fast, reliable, and accurate methodology for predicting aerodynamic coefficients of airfoils and t...
Optimization was used to find the best configuration of two airfoils in tandem placed into an incomi...
This article presents a design optimization method for maximizing lift without increasing the drag o...
Optimization methods have been widely applied to the aerodynamic design of gas turbine blades. While...
An efficient computational framework is presented and applied to the inverse aerodynamic shape desig...
Artificial neural networks [ANNs] are an effective method for predicting and classifying variables. ...
The airfoil is the prime component of flying vehicles. For low-speed flights, low Reynolds number ai...
New high-lift components have been designed for a three-element advanced high-lift research airfoil ...
This paper discusses a neural network tool for more effective aircraft design evaluations during win...
In this paper, we employ a genetic algorithm (GA) for shape optimization of low Reynolds number airf...
This work proposes a novel multi-output neural network for the prediction of the lift coefficient of...
The ability of artificial neural networks (ANN) to model the unsteady aerodynamic force coefficients...
Trailing edge flaps (TEFs) are high-lift devices that generate changes in the lift and drag coeffici...
A recently developed neural net-based aerodynamic design procedure is used in the redesign of a tran...
An optimization methodology based on neural networks was developed for use in 2D optimal shape desig...
A fast, reliable, and accurate methodology for predicting aerodynamic coefficients of airfoils and t...
Optimization was used to find the best configuration of two airfoils in tandem placed into an incomi...
This article presents a design optimization method for maximizing lift without increasing the drag o...
Optimization methods have been widely applied to the aerodynamic design of gas turbine blades. While...
An efficient computational framework is presented and applied to the inverse aerodynamic shape desig...
Artificial neural networks [ANNs] are an effective method for predicting and classifying variables. ...
The airfoil is the prime component of flying vehicles. For low-speed flights, low Reynolds number ai...
New high-lift components have been designed for a three-element advanced high-lift research airfoil ...