PID controller uses negative feedback which is obtained from accelerometer, gyroscope, and magnetometer by using DMP method and Madgwick quaternion to produce the pulse to control the velocity of brushless motor and angle position of servo motor. The result of PID controller is also compared to P controller and PI controller.

According to the test, control system in transition mode for roll angle with setpoint 0^o is capable to maintain roll angle at average angle 0.48^o with standard deviation 1.75^o, for pitch angle with setpoint 25^o is capable to maintain pitch angle at average angle 25.26^o with standard deviation 2.87^o, for yaw angle is capable to maintain yaw angle at range 10^o to 0^o with average angle 3.78^o and standard deviation 1.83^o.

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[2] Copeland, B.R., 2008, The Design of PID Controllers Using Ziegler Nichols Tuning. New York.

[3] Gress, G.R., 2007, Lift fans as Gyroscopes for Controlling Compact VTOL Air Vehicles: Overview and Development Status of Oblique Active Tilting. Gress Aerospace, Toronto, Canada.

[4] Kardono, Effendi, R.A.K., Fatoni, A., 2012, Perancangan dan Implementasi Sistem Pengaturan Optimal LQR untuk Menjaga Kestabilan Hover pada Quadcopte, Jurnal Teknik ITS Vol.1.