The aim of the presented paper is to overcome the force overshoot issue in impedance based force tracking applications.Nowadays, light-weight manipulators are involved in high-accurate force control applications (such as polishing tasks), where the forceovershoot issue is critical (i.e., damaging the component causing a production waste), exploiting the impedance control. Two mainforce tracking impedance control approaches are described in literature: a) set-point deformation and b) variable stiffness approaches.However, no contributions are directly related to the force overshoot issue. The presented paper extends both such methodologies toanalytically achieve the force overshoots avoidance in interaction tasks based on the on-line estimation of the interacting environmentstiffness (available through an Extended Kalman Filter). Both the proposed control algorithms allow to obtain a linear closed-loopcoupled robot - environment system. Therefore, control gains can be analytically on-line calculated to achieve an over-dampedclosed-loop dynamics of the controlled coupled system. Control strategies have been validated in experiments, involving a KUKALWR 4+. A probing task has been performed, representative of many industrial tasks (e.g., assembly tasks), in which a main force taskdirection is defined.
Exploiting Impedance Shaping Approaches to Overcome Force Overshoots in Delicate Interaction Tasks
Loris Roveda
Primo
Membro del Collaboration Group
;Nicola PedrocchiSecondo
Membro del Collaboration Group
;Lorenzo Molinari TosattiUltimo
Project Administration
2016
Abstract
The aim of the presented paper is to overcome the force overshoot issue in impedance based force tracking applications.Nowadays, light-weight manipulators are involved in high-accurate force control applications (such as polishing tasks), where the forceovershoot issue is critical (i.e., damaging the component causing a production waste), exploiting the impedance control. Two mainforce tracking impedance control approaches are described in literature: a) set-point deformation and b) variable stiffness approaches.However, no contributions are directly related to the force overshoot issue. The presented paper extends both such methodologies toanalytically achieve the force overshoots avoidance in interaction tasks based on the on-line estimation of the interacting environmentstiffness (available through an Extended Kalman Filter). Both the proposed control algorithms allow to obtain a linear closed-loopcoupled robot - environment system. Therefore, control gains can be analytically on-line calculated to achieve an over-dampedclosed-loop dynamics of the controlled coupled system. Control strategies have been validated in experiments, involving a KUKALWR 4+. A probing task has been performed, representative of many industrial tasks (e.g., assembly tasks), in which a main force taskdirection is defined.File | Dimensione | Formato | |
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