IMPROVEMENT OF MEDICATION DELIVERY TRICOPTER STABILITY USING ACKERMAN METHOD

W. O. Apena; I. A. Adebanjo

المؤلفون

W. O. Apena Department of Electrical and Electronic Engineering, Federal University of Technology, Akure, Nigeria مؤلف
I. A. Adebanjo Biomedical Computing and Engineering Technology, Coventry University, Coventry, United Kingdom مؤلف

الكلمات المفتاحية:

Tricopter، settling time، overshoot and damping factor

الملخص

Unmanned aerial vehicles (UAVs) have been a subject of interest across many areas of study. Tricopter is a multirotor with three rotors in Y or T configuration for flight operations; capable of tilting with the aid of a servo motor. The study designed stability controller for a developed medication delivery tricopter to enhanced community-based healthcare system in Nigeria. The study adopted a control law based on Ackerman’s method to improve the tricopter’s settling time, maximum overshoot and damping factor; through a linearized
mathematical model. Desired poles were implemented in MATLAB simulink environment to design a suitable controller for the system in accordance with predefined parameters. The output revealed no overshoots along X and Y axes at settling time of 3s, but overshoot along Z axis by 50% at settling time of 2s. Conclusively, the steady state error was zero and it was observed that the medication delivery tricopter response was made stable with the aid of a controller. The result shows that the tricopter model can be made effectively stable and reliable in operation with the use of a controller