This paper addresses the influence of manufacturing variability of a helicopter rotor blade on its aeroelastic responses. An aeroelastic analysis using finite elements in spatial and temporal domains is used to compute the helicopter rotor frequencies, vibratory hub loads, power required and stability in forward flight. The novelty of the work lies in the application of advanced data-driven machine learning (ML) techniques, such as convolution neural networks (CNN), multi-layer perceptron (MLP), random forests, support vector machines and adaptive Gaussian process (GP) for capturing the nonlinear responses of these complex spatio-temporal models to develop an efficient physics-informed ML framework for stochastic rotor analysis. Thus, the w...
This study is centered around investigating the effects of operational loading variations caused by ...
The effect of uncertainty in composite material properties on the nonlinear aeroelastic response and...
Measuring the load distribution along a helicopter rotor blade has been one of the most challenging ...
Physical-law based models are widely utilized in the aerospace industry. One such use is to provide ...
Physical-law-based models are widely utilized in the aerospace industry. One such use is to provide ...
This paper studies the effects of spatially uncertain material properties of composite helicopter ro...
Incorporating uncertainties in the aeroelastic analysis increases the confidence levels of computati...
The effect of uncertainty in composite material properties on the aeroelastic response, vibratory lo...
Two different approaches based on sequential experimental design concepts have been studied for heli...
This study investigates the effect of uncertainty in composite material properties on the cross-sect...
An improved spatial statistical approach and probabilistic prediction method for mistuned integrally...
Accurately determining component loads on a helicopter is an important goal in the helicopter struct...
The development of accurate load spectra for helicopters is necessary for life cycle management and ...
Physical law based models (also known as white box models) are widely applied in the aerospace indus...
The experimental data for a Cbladed soft-inplane hingeless main rotor is used to validate a comprehe...
This study is centered around investigating the effects of operational loading variations caused by ...
The effect of uncertainty in composite material properties on the nonlinear aeroelastic response and...
Measuring the load distribution along a helicopter rotor blade has been one of the most challenging ...
Physical-law based models are widely utilized in the aerospace industry. One such use is to provide ...
Physical-law-based models are widely utilized in the aerospace industry. One such use is to provide ...
This paper studies the effects of spatially uncertain material properties of composite helicopter ro...
Incorporating uncertainties in the aeroelastic analysis increases the confidence levels of computati...
The effect of uncertainty in composite material properties on the aeroelastic response, vibratory lo...
Two different approaches based on sequential experimental design concepts have been studied for heli...
This study investigates the effect of uncertainty in composite material properties on the cross-sect...
An improved spatial statistical approach and probabilistic prediction method for mistuned integrally...
Accurately determining component loads on a helicopter is an important goal in the helicopter struct...
The development of accurate load spectra for helicopters is necessary for life cycle management and ...
Physical law based models (also known as white box models) are widely applied in the aerospace indus...
The experimental data for a Cbladed soft-inplane hingeless main rotor is used to validate a comprehe...
This study is centered around investigating the effects of operational loading variations caused by ...
The effect of uncertainty in composite material properties on the nonlinear aeroelastic response and...
Measuring the load distribution along a helicopter rotor blade has been one of the most challenging ...