Dynamic and Interactive Path Planning and Collision Avoidance for anIndustrial Robot Using Artificial Potential Field Based Method: Dynamic and Interactive Path Planning and Collision Avoidance for anIndustrial Robot Using Artificial Potential Field Based Method
In this paper the dynamic path planning with collision avoidance of anindustrial robot is addressed. The Artificial Potential Field (APF) method isused and, as a contribution, it has been expanded with obstacle-chargeshaving different geometrical forms in order to positively influence thegenerated trajectory. Also an analysis method is presented that ensures thatno violation of a specified safety envelope can occur around the obstacles.Implementation of the theoretical consideration and experimental validationusing industrial equipment is shown.
%0 Generic
%1 A.Csiszar2011
%A A. Csiszar, M. Drust, T.Dietz A. Verl C. Brisan
%D 2011
%K ISW avoidance collision path planning,
%P --
%T Dynamic and Interactive Path Planning and Collision Avoidance for anIndustrial Robot Using Artificial Potential Field Based Method: Dynamic and Interactive Path Planning and Collision Avoidance for anIndustrial Robot Using Artificial Potential Field Based Method
%X In this paper the dynamic path planning with collision avoidance of anindustrial robot is addressed. The Artificial Potential Field (APF) method isused and, as a contribution, it has been expanded with obstacle-chargeshaving different geometrical forms in order to positively influence thegenerated trajectory. Also an analysis method is presented that ensures thatno violation of a specified safety envelope can occur around the obstacles.Implementation of the theoretical consideration and experimental validationusing industrial equipment is shown.
@misc{A.Csiszar2011,
__markedentry = {[xtl:6]},
abstract = {In this paper the dynamic path planning with collision avoidance of anindustrial robot is addressed. The Artificial Potential Field (APF) method isused and, as a contribution, it has been expanded with obstacle-chargeshaving different geometrical forms in order to positively influence thegenerated trajectory. Also an analysis method is presented that ensures thatno violation of a specified safety envelope can occur around the obstacles.Implementation of the theoretical consideration and experimental validationusing industrial equipment is shown.},
added-at = {2016-03-03T09:53:12.000+0100},
author = {{A. Csiszar, M. Drust}, T.Dietz A. Verl C. Brisan},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2aed13fa759127d8268ba4a357fb3929f/isw-bibliothek},
interhash = {060a7ae71777f3839211f7e1eeba6ee3},
intrahash = {aed13fa759127d8268ba4a357fb3929f},
keywords = {ISW avoidance collision path planning,},
pages = {--},
timestamp = {2016-03-03T09:18:35.000+0100},
title = {Dynamic and Interactive Path Planning and Collision Avoidance for anIndustrial Robot Using Artificial Potential Field Based Method: Dynamic and Interactive Path Planning and Collision Avoidance for anIndustrial Robot Using Artificial Potential Field Based Method},
year = 2011
}