The prediction and monitoring of aircraft structural fatigue damage is vital for the safe operation of ageing aircraft. The ability to determine aerodynamic loading inversely using structural response data has the potential to significantly improve fatigue monitoring capabilities. This study examines how a Neural Network can be used to estimate and predict aerodynamic loading from structural response data. To simulate aerodynamic loading conditions F/A-18 Empennage fatigue test data which includes the application of both high frequency buffet and low frequency manoeuvre loading will be used. The neural network was trained using response data from several strain gauges as input and known applied loads as output. It was then tested with new d...
In this paper, identification of dynamic stall effect of rotor blade is considered. Recurrent Neural...
© IMechE 2021.Experimental structural response of equipment mounted in store carried externally by j...
The load and angle of attack (AoA) for wing structures are critical parameters to be monitored for e...
An artificial Neural Network (ANN) system has been developed that can analyse aircraft flight data t...
Part 13: AI Applications - Mobile ApplicationsInternational audienceAircraft wing structures are sub...
The operational loads experienced by rotary-wing aircraft are more complex than those of fixed-wing ...
Neural networks were used to model wing bending-moment loads, torsion loads, and control surface hin...
Artificial neural networks (ANN) are extensively utilized in structural health monitoring. Neverthel...
A fast, reliable, and accurate methodology for predicting aerodynamic coefficients of airfoils and t...
In this article, a novel method for estimating inertial and stiffness parameters for aircraft struct...
Graph Neural Networks have been applied to learn the flight and structural dynamics of an High Altit...
Backpropagation neural networks have been used to predict strain resulting from the maneuver in-flig...
This paper describes the use of artificial neural networks (ANNs) with the vibration data from real ...
This paper deals with the development of a realtime structural health monitoring system for airframe...
The flight load test technology is of great importance for load designing, strength flight test and ...
In this paper, identification of dynamic stall effect of rotor blade is considered. Recurrent Neural...
© IMechE 2021.Experimental structural response of equipment mounted in store carried externally by j...
The load and angle of attack (AoA) for wing structures are critical parameters to be monitored for e...
An artificial Neural Network (ANN) system has been developed that can analyse aircraft flight data t...
Part 13: AI Applications - Mobile ApplicationsInternational audienceAircraft wing structures are sub...
The operational loads experienced by rotary-wing aircraft are more complex than those of fixed-wing ...
Neural networks were used to model wing bending-moment loads, torsion loads, and control surface hin...
Artificial neural networks (ANN) are extensively utilized in structural health monitoring. Neverthel...
A fast, reliable, and accurate methodology for predicting aerodynamic coefficients of airfoils and t...
In this article, a novel method for estimating inertial and stiffness parameters for aircraft struct...
Graph Neural Networks have been applied to learn the flight and structural dynamics of an High Altit...
Backpropagation neural networks have been used to predict strain resulting from the maneuver in-flig...
This paper describes the use of artificial neural networks (ANNs) with the vibration data from real ...
This paper deals with the development of a realtime structural health monitoring system for airframe...
The flight load test technology is of great importance for load designing, strength flight test and ...
In this paper, identification of dynamic stall effect of rotor blade is considered. Recurrent Neural...
© IMechE 2021.Experimental structural response of equipment mounted in store carried externally by j...
The load and angle of attack (AoA) for wing structures are critical parameters to be monitored for e...