Modelling of Dynamic and Control of Six-Rotor Autonomous Unmanned Aerial Vehicle

Daniel Ołdziej; Zdzisław Gosiewski

doi:10.4028/www.scientific.net/SSP.198.220

Paper Titles

Development of a Model for the Intake Channel within a MRCA Turbine Engine in Order to Analyze Intake Vortex Phenomena
p.188

Flight Loads of Mini UAV
p.194

Hybrid Electroactive Wings Morphing for Aeronautic Applications
p.200

Modeling, Simulation and Control of Microelectromechanical Flying Insect
p.206

Modelling of Dynamic and Control of Six-Rotor Autonomous Unmanned Aerial Vehicle
p.220

Optimization of Lift Force of Mini Quadrotor Helicopter by Changing of Gap Size between Rotors
p.226

Preliminary UAV Autopilot Integration and In-Flight Testing
p.232

Simulation Method of UAV Avionics System Designing
p.238

Testing Some Alpha-Models of Turbulence on Wing Profiles
p.243

HomeSolid State PhenomenaSolid State Phenomena Vol. 198Modelling of Dynamic and Control of Six-Rotor...

Modelling of Dynamic and Control of Six-Rotor Autonomous Unmanned Aerial Vehicle

Abstract:

The paper describes matters of modeling and control of aerial vehicle in rotorcraft configuration. Equations of motion were derived and dynamic model of six-rotor was build. To find the best adjustment of model to real object the dynamics of the drives was joined to the control plant model. Trimming and linearization were performed. Open loop system and LQR controller were checked in simulation environment. Next the faults of the actuator/sensor elements were arranged and the minimal number of observed outputs and drives for LQR stabilization process were specified.

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Periodical:

Solid State Phenomena (Volume 198)

Pages:

220-225

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.198.220

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Online since:

March 2013

Authors:

Daniel Ołdziej, Zdzisław Gosiewski

Keywords:

Control Law, Dynamic Modelling, Inertial Measurement Unit, Multirotor Vehicle, UAV

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References

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DOI: 10.1007/978-1-4020-6114-1_6

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