Design and control of the nonholonomic manipulator

Author

Nakamura, Yoshihiko ; Chung, Woojin ; Sørdalen, Ole Jacob

Author_Institution

Dept. of Mechano-Inf., Tokyo Univ., Japan

Volume

17

Issue

1

fYear

2001

fDate

2/1/2001 12:00:00 AM

Firstpage

48

Lastpage

59

Abstract

Nonholonomic constraints are exploited to design a controllable n-joint manipulator with only two inputs. Gears subject to nonholonomic constraints are designed to transmit velocities from the inputs to the passive joints. The system possesses a triangular structure for which a conversion into chained form is presented. The nonholonomic manipulator can, therefore, be controlled with an open loop or a closed loop using existing controllers for chained form. Mechanical design is established, and experimental results proved the usefulness of design of the nonholonomic manipulator and applied control schemes. While previous publications have assumed that the nonholonomic systems are given and have developed theory for these systems, this paper points out a new direction where the nonholonomic theory is used to design controllable and stabilizable systems

Keywords

control system synthesis; controllability; manipulator kinematics; nonlinear control systems; chained form; controllability; kinematics; nonholonomic manipulator; nonholonomic systems; nonlinear control systems; underactuated systems; Control systems; Gears; Jacobian matrices; Manipulators; Mechanical systems; Mobile robots; Nonlinear control systems; Open loop systems; Robot control; Robotics and automation;

fLanguage

English

Journal_Title

Robotics and Automation, IEEE Transactions on

Publisher

ieee

ISSN

1042-296X

Type

jour

DOI

10.1109/70.917082

Filename

917082