Matthew R. Rickey scite author profile

Matthew R. Rickey

3Publications

17Citation Statements Received

0Citation Statements Given

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Affiliations

United States Air Force Research Laboratory, Wright-Patterson Air Force Base

Publications

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Aerodynamic Characteristics Prediction via Artificial Hair Sensor and Feedforward Neural Network

Magar

Reich

Rickey

et al. 2015

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Fly by feel is a concept in which distributed sensors and actuators are integrated on an aerial system for state awareness or sensation of the environment, and make use of distributed control to increase the system maneuverability, stability and safety. Artificial hair sensors are good candidates as sensors for the fly by feel concept because they are lightweight, have low manufacturing costs and can easily be integrated on the surface of air-vehicle without affecting the flow. We investigate an application of artificial hair sensors considering its capability of measuring the local flow velocity combined with a Feedforward Artificial Neural Network to predict the aerodynamic quantities such as lift coefficient, moment coefficient, angle of attack and free-stream velocity in real-time. These quantities, when combined with the physical and unsteady aerodynamics parameters, will make a framework for designing and implementing an active controller for gust alleviation in a pitch and plunge airfoil system.

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Processing technology, laser, optical and thermal properties of ceramic laser gain materials

Dubinskii

Merkle

Goff

et al. 2005

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Aerodynamic Parameter Prediction on a Airfoil with Flap via Artificial Hair Sensors and Feedforward Neural Network

Magar

Reich

Rickey

et al. 2016

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Matthew R. Rickey

Aerodynamic Characteristics Prediction via Artificial Hair Sensor and Feedforward Neural Network

Processing technology, laser, optical and thermal properties of ceramic laser gain materials

Aerodynamic Parameter Prediction on a Airfoil with Flap via Artificial Hair Sensors and Feedforward Neural Network

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