Decentralized Adaptive Fuzzy Tracking Control for Robot Finger Dynamics

Author

Qi Zhou ; Hongyi Li ; Peng Shi

Author_Institution

Coll. of Inf. Sci. & Technol., Bohai Univ., Jinzhou, China

Volume

23

Issue

3

fYear

2015

fDate

Jun-15

Firstpage

501

Lastpage

510

Abstract

In this paper, a novel design method for adaptive tracking control is proposed for robot finger dynamics. First, the dynamics are described by considering the robot finger as a large-scale system since it has many joints and multi-degrees of freedoms (DOFs). Second, by employing the direct adaptive fuzzy approximation method to approximate the unknown and desired control input signals instead of the unknown nonlinear functions, the number of adaptive design parameters obtained in the control design process is greatly reduced. Moreover, it is shown that the designed controller can guarantee all the signals in the closed-loop system to be semiglobally uniformly ultimately bounded. Finally, simulations are conducted on the Puma 560 robot manipulator, and the results show the effectiveness of the developed control design approach.

Keywords

adaptive control; approximation theory; closed loop systems; control system synthesis; decentralised control; fuzzy control; fuzzy set theory; large-scale systems; manipulator dynamics; DOF; Puma 560 robot manipulator; closed-loop system; decentralized adaptive fuzzy tracking control design; direct adaptive fuzzy approximation method; large-scale system; multidegrees of freedom; robot finger dynamics; semiglobally uniformly ultimately bounded signal; Fuzzy logic; Joints; Manipulator dynamics; Service robots; Trajectory; Decentralized adaptive control; fuzzy control; fuzzy logic systems; large-scale systems; robot finger;

fLanguage

English

Journal_Title

Fuzzy Systems, IEEE Transactions on

Publisher

ieee

ISSN

1063-6706

Type

jour

DOI

10.1109/TFUZZ.2014.2315661

Filename

6783775