W. Ham, Jaebyung Park, E. Tumenjargal, L. Badarch, Hyeokjae Kwon
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Simulation of RC Helicopter based on dynamics of quaternion by using OpenGL and simulink
In this paper, we present a sliding mode control for the radio controlled helicopter based on quaternion dynamics. We also introduce the kinematics of the rotating object based on quaternion and then propose a robust sliding mode control algorithm which can guarantee the over all stability of the whole system. We will show the simulation results by using the matlab simulink software tool and then implement the computer animation by using OpenGL based on the data of the simulation results. In this paper, we introduce implementation of virtual training environments based on Embedded System. Our virtual environment consists of S3C6410 ARM11 based embedded board, 3D Auto-Stereoscopic LCD Module, and RC Helicopter's remote controller. We use the simple dynamics of the helicopter which we derived in previous research work under the assumption that it can be modeled as rigid body composed of three main parts, such as main body, main rotor, and tail rotor. From the computer simulation, we can check the validness of proposed control law.
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