Title :
The cause of kinematic instability in hybrid position/force control: contact compliance
Author :
Goldsmith, P.B. ; Francis, B.A. ; Goldenberg, A.A.
Author_Institution :
Dept. of Mech. Eng., Calgary Univ., Alta., Canada
Abstract :
The instability of Raibert and Craig´s (1981) hybrid position/force control, sometimes called `kinematic instability´ in the literature, has been the subject of numerous research articles. Although this control was proposed for robots in contact with rigid kinematic constraints, stability analyses have either neglected the constraint or modelled it as a spring. In this paper, we prove that Raibert and Craig´s hybrid control is never unstable when applied to rigid constraints. We therefore conclude that the cause of the previously reported `kinematic instabilities´ was the assumed compliance (or, in the case of some studies, absence) of the constraint
Keywords :
compliance control; force control; manipulator kinematics; mechanical contact; mechanical stability; position control; contact compliance; hybrid position/force control; kinematic instability; rigid kinematic constraints; robots; spring model; stability analyses; Acceleration; Contacts; End effectors; Feedback; Force control; Jacobian matrices; Mechanical engineering; Robot kinematics; Stability analysis; Strain control;
Conference_Titel :
Intelligent Information Systems, 1997. IIS '97. Proceedings
Conference_Location :
Grand Bahama Island
Print_ISBN :
0-8186-8218-3
DOI :
10.1109/IIS.1997.645430
