Title :
Fuzzy-PID hybrid controller for mobile robot using point cloud and low cost depth sensor
Author :
Salhi, Khaled ; Alimi, Adel M.
Author_Institution :
REGIM: Res. Groups on Intell. Machines, Univ. of Sfax, Sfax, Tunisia
Abstract :
In mobile robots, motion control systems play an important role to assume trajectory planning and obstacle avoidance. Proportional-Integral-Derivative (PID) controllers are the most popular controller used in industrial control systems including mobile robots. The PID controller is developed based on the linear control theory but it gives inconsistent performance for different condition. In order to overcome this problem, we propose a Fuzzy-tuned PID controller in which the PID parameters are learned, adapted and changed thanks to the fuzzy system. The PID inputs are given by the Kinect sensor after being processed by the point cloud library. The effectiveness of this method is evaluated experimentally in real time using the mobile robot iRobot Create.
Keywords :
collision avoidance; fuzzy control; fuzzy systems; image sensors; mobile robots; motion control; three-term control; trajectory control; Kinect sensor; PID parameters; fuzzy PID hybrid controller; fuzzy system; fuzzy tuned PID controller; industrial control systems; linear control theory; low cost depth sensor; mobile robot iRobot Create; mobile robots; motion control systems; obstacle avoidance; point cloud library; proportional integral derivative controllers; trajectory planning; Libraries; Process control; Fuzzy Logic Controller; Irobot Create robot; Kinect; Point Cloud; Proportional Integral Derivative controller;
Conference_Titel :
Individual and Collective Behaviors in Robotics (ICBR), 2013 International Conference on
Conference_Location :
Sousse
DOI :
10.1109/ICBR.2013.6729280
