Online reference shaping with end-point position feedback for large acceleration avoidance on manipulator control

Author

Seto, Fumi ; Sugihara, Tomomichi

Author_Institution

Future Robot. Technol. Center, Chiba Inst. of Technol., Chiba, Japan

fYear

2009

fDate

10-15 Oct. 2009

Firstpage

5743

Lastpage

5748

Abstract

A nonlinear reference shaping method for manipulators which are operated in living environments is proposed. It generates an intermediate reference position, and it is combined with a control based on the virtual spring-damper hypothesis proposed by Arimoto et al. The initial acceleration is moderated by an intermediate reference position inserted between the original target and the current position of the manipulator´s endpoint and by a second-order-lag filter. The endpoint position is fed back to the proposed controller to prevent from excessive trailing force and large acceleration. As the result, human-like smooth reaching motions and pliant behaviors against external forces are achieved. The validity of the proposed method is shown through computer simulations on a planar 4-DOF manipulator.

Keywords

feedback; manipulators; nonlinear control systems; position control; springs (mechanical); vibration control; acceleration avoidance; computer simulations; end-point position feedback; manipulator control; manipulators; nonlinear reference shaping method; online reference shaping; planar 4-DOF manipulator; second-order-lag filter; virtual spring-damper hypothesis; Acceleration; Computer simulation; Feedback; Force control; Humans; Manipulators; Mathematical model; Motion control; Shape control; Trajectory;

fLanguage

English

Publisher

ieee

Conference_Titel

Intelligent Robots and Systems, 2009. IROS 2009. IEEE/RSJ International Conference on

Conference_Location

St. Louis, MO

Print_ISBN

978-1-4244-3803-7

Electronic_ISBN

978-1-4244-3804-4

Type

conf

DOI

10.1109/IROS.2009.5353889

Filename

5353889