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Supervised by Ministry of Industry and Information Technology of The People's Republic of China Sponsored by Harbin Institute of Technology Editor-in-chief Yu Zhou ISSNISSN 1005-9113 CNCN 23-1378/T

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Related citation:Zhi-Jiang Du,Li-Min Ren,Wei-Dong Wang,Wei Dong.Kinematics/Fuzzy Logic Combined Controller for Formation Control of Mobile Robots[J].Journal of Harbin Institute Of Technology(New Series),2013,20(4):121-128.DOI:10.11916/j.issn.1005-9113.2013.04.019.
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Kinematics/Fuzzy Logic Combined Controller for Formation Control of Mobile Robots
Author NameAffiliation
Zhi-Jiang Du State Key Laboratory of Robotics and System, Harbin Institute of Technology, Harbin 150080, China 
Li-Min Ren State Key Laboratory of Robotics and System, Harbin Institute of Technology, Harbin 150080, China
College of Mechanical Engineering, Beihua University, Jilin 132021, China 
Wei-Dong Wang State Key Laboratory of Robotics and System, Harbin Institute of Technology, Harbin 150080, China 
Wei Dong State Key Laboratory of Robotics and System, Harbin Institute of Technology, Harbin 150080, China 
Abstract:
A kinematics and fuzzy logic combined formation controller was proposed for leader-follower based formation control using backstepping method in order to accommodate the dynamics of the robot. The kinematics controller generates desired linear and angular velocities for follower robots, which make the configuration of follower robots coverage to the desired. The fuzzy logic controller takes dynamics of the leader and followers into consideration, which is built upon Mamdani fuzzy model. The force and torque acting on robots are described as linguistic variables and also 25 if-then rules are designed. In addition, the fuzzy logic controller adopts the Centroid of Area method as defuzzification strategy and makes robots’ actual velocities converge to the expected which is generated by the kinematics controller. The innovation of the kinematics and fuzzy logic combined formation controller presented in the paper is that the perfect velocity tracking assumption is removed and real-time performance of the system is improved. Compared with traditional torque-computed controller, the velocity error convergence time in case of the proposed method is shorter than traditional torque-computed controller. The simulation results validate that the proposed controller can drive robot members to form the desired formation and formation tracking errors which can coverage to a neighborhood of the origin. Additionally, the simulations also show that the proposed method has better velocity convergence performance than traditional torque-computed method.
Key words:  kinematics/fuzzy logic combined  formation controller  mobile robot  backstepping
DOI:10.11916/j.issn.1005-9113.2013.04.019
Clc Number:TP242.6
Fund:

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