Title :
Kinematics correspondence & scaling issues in virtual telerobotics systems
Author :
Azorin, J.M. ; Sabater, J.M. ; Paya, L. ; Garcia, N.
Author_Institution :
Dept. de Ingenieria de Sistemas Ind., Univ. Miguel Hernandez, Elche
fDate :
June 28 2004-July 1 2004
Abstract :
This paper describes how to establish a kinematic correspondence between the workspaces of master and slave devices using a virtual environment and its implementation on a teleoperation simulator. The virtual environment incorporates the kinematic and dynamic model of the slave robot and the remote environment. Mapping and scaling of workspaces have been added to the teleoperation simulator in order to give the operator a more natural interface having the possibility of changing his viewpoint of the remote scene. Experimental results are presented to verify the kinematic algorithms implemented
Keywords :
haptic interfaces; robot dynamics; robot kinematics; telerobotics; virtual reality; dynamic model; haptic interface; kinematic algorithms; kinematic correspondence; kinematic model; master devices; natural interface; scaling issues; slave devices; slave robot; teleoperation simulator; virtual environment; virtual reality; virtual telerobotics systems; workspaces mapping; workspaces scaling; Cameras; Force control; Graphics; Indexing; Libraries; Master-slave; Robot kinematics; Robot vision systems; Telerobotics; Virtual environment;
Conference_Titel :
Automation Congress, 2004. Proceedings. World
Conference_Location :
Seville
Print_ISBN :
1-889335-21-5
