Learning Robot Force/Position Control for Repetitive High Speed Applications with Unknown Non-Linear Contact Stiffness

Herbert Parzer; Hubert Gattringer; Andreas Müller; Ronald Naderer

Learning Robot Force/Position Control for Repetitive High Speed Applications with Unknown Non-Linear Contact Stiffness

Herbert Parzer
, Hubert Gattringer
, Andreas Müller
, Ronald Naderer

Institute of Robotics

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

Abstract

This paper proposes a learning robot force/position control for high speed force trajectory following. Following high speed force trajectories in different repetitve robotic applications is a challenging ﬁeld in robot force control. If the end–effector should provide a contact force while following a position trajectory in the non–force controlled direction a parallel force /position control is suitable. However, when it comes to high speed tasks this force control method reaches its limit. The problem can be solved by using an iterative learning control method in combination with the parallel force/position control. In this paper the learning force control method is introduced and experimental results are presented.

Original language	English
Title of host publication	Proceedings in Applied Mathematics and Mechanics Vol. 15
Number of pages	2
Publication status	Published - Mar 2015

Fields of science

203015 Mechatronics
203022 Technical mechanics
202 Electrical Engineering, Electronics, Information Engineering
202035 Robotics
203013 Mechanical engineering

JKU Focus areas

Mechatronics and Information Processing

Cite this

@inproceedings{2b884c6152114932bb0859cec8f77325,

title = "Learning Robot Force/Position Control for Repetitive High Speed Applications with Unknown Non-Linear Contact Stiffness",

abstract = "This paper proposes a learning robot force/position control for high speed force trajectory following. Following high speed force trajectories in different repetitve robotic applications is a challenging ﬁeld in robot force control. If the end–effector should provide a contact force while following a position trajectory in the non–force controlled direction a parallel force /position control is suitable. However, when it comes to high speed tasks this force control method reaches its limit. The problem can be solved by using an iterative learning control method in combination with the parallel force/position control. In this paper the learning force control method is introduced and experimental results are presented.",

author = "Herbert Parzer and Hubert Gattringer and Andreas M{\"u}ller and Ronald Naderer",

year = "2015",

month = mar,

language = "English",

booktitle = "Proceedings in Applied Mathematics and Mechanics Vol. 15",

}

TY - GEN

T1 - Learning Robot Force/Position Control for Repetitive High Speed Applications with Unknown Non-Linear Contact Stiffness

AU - Parzer, Herbert

AU - Gattringer, Hubert

AU - Müller, Andreas

AU - Naderer, Ronald

PY - 2015/3

Y1 - 2015/3

N2 - This paper proposes a learning robot force/position control for high speed force trajectory following. Following high speed force trajectories in different repetitve robotic applications is a challenging ﬁeld in robot force control. If the end–effector should provide a contact force while following a position trajectory in the non–force controlled direction a parallel force /position control is suitable. However, when it comes to high speed tasks this force control method reaches its limit. The problem can be solved by using an iterative learning control method in combination with the parallel force/position control. In this paper the learning force control method is introduced and experimental results are presented.

AB - This paper proposes a learning robot force/position control for high speed force trajectory following. Following high speed force trajectories in different repetitve robotic applications is a challenging ﬁeld in robot force control. If the end–effector should provide a contact force while following a position trajectory in the non–force controlled direction a parallel force /position control is suitable. However, when it comes to high speed tasks this force control method reaches its limit. The problem can be solved by using an iterative learning control method in combination with the parallel force/position control. In this paper the learning force control method is introduced and experimental results are presented.

M3 - Conference proceedings

BT - Proceedings in Applied Mathematics and Mechanics Vol. 15

ER -