Title :
Attitude stabilization of Quad-rotor (UAV) system using Fuzzy PID controller (an experimental test)
Author :
Ahmed, S. Faiz ; Kushsairy, K. ; Bakar, M. Izhar A. ; Hazry, D. ; Joyo, M. Kamran
Author_Institution :
British Malaysian Inst. Kuala Lumpur, Univ. Kuala Lumpur, Kuala Lumpur, Malaysia
Abstract :
Generally Quad-rotor type Unmanned Aerial Vehicles are unstable in nature, so to stabilize it, attitude controller is used. This paper presents a Fuzzy Logic based PID control system (FPID) for attitude stabilization of Quad-rotor Unmanned Aerial Vehicle (UAV). The Fuzzy logic controller updates the PID controller gains efficiently in such a way that it efficiently stabilizes the attitude of quad-rotor UAV. This method enhances the capabilities of conventional PID Controller to a dynamic PID Controller. The propose FPID control technique for attitude controlling of Quad-rotor UAV was tested on developed prototype of Quad rotor UAV for experimental purpose. Experimental results proved that proposed Fuzzy Logic based PID (FPID) controller quickly stabilized Quad-rotor UAV and its response time and settling time is reasonably good in attitude stabilization control application.
Keywords :
attitude control; autonomous aerial vehicles; fuzzy control; helicopters; stability; three-term control; FPID; UAV system; attitude controller; attitude stabilization; dynamic PID controller; fuzzy PID controller; fuzzy logic based PID control system; quad-rotor system; quad-rotor type unmanned aerial vehicles; quad-rotor unmanned aerial vehicle; response time; settling time; Attitude control; Fuzzy logic; Mathematical model; Niobium; PD control; Propellers; Rotors; Attitude Stabilization; Fuzzy-PID controller; Quad-rotor Structure;
Conference_Titel :
Computing Technology and Information Management (ICCTIM), 2015 Second International Conference on
Conference_Location :
Johor
Print_ISBN :
978-1-4799-6210-5
DOI :
10.1109/ICCTIM.2015.7224600
