Add to ORKGThis paper gives an overview of our current research on force-controlled compliant motion. The goal is to build an Autonomous Compliant Motion (ACM) system of the next generation, i.e., with more autonomous sensing components and a less explicit, constraint-driven task specification. The ideas developed in the ACM context are useable for other areas too
Abstract—Industrial robots are usually position controlled, which requires high accuracy of the robo...
This dissertation focuses on compliant motion planning designed for robotic assembly. A Discrete Com...
Today\u27s robot manipulation requires a sophisticated compliant motion. A new compliant motion meth...
Still today, industrial robot assembly tasks are executed by replaying a preprogrammed trajectory, m...
Modern industrial robots are traditionally programmed to follow desired trajectories, with the only ...
This paper describes the components ("software agents") that are needed in an autonomous robotic ass...
Force sensing provides robots the capability to accomplish tasks where physical interaction with the...
Whether they are asked to polish or assemble parts, clean the house or open doors, the future genera...
A hybrid force/position control scheme is developed that is suitable for robotic assembly applicatio...
This paper presents our research group's latest results in autonomous force-controlled manipulation ...
Wigand DL. Modeling robot control systems in compliant interaction with the environment. Bridging th...
This paper presents the Compliant Task Generator: a new approach for the automatic conversion of a g...
The use of active compliance enables robots to carry out tasks in the presence of significant sens...
This book provides comprehensive and integrated approaches for rigid and flexible object assembly. I...
Force control has long been cited as a method for dealing with positional uncertainties when perform...
Abstract—Industrial robots are usually position controlled, which requires high accuracy of the robo...
This dissertation focuses on compliant motion planning designed for robotic assembly. A Discrete Com...
Today\u27s robot manipulation requires a sophisticated compliant motion. A new compliant motion meth...
Still today, industrial robot assembly tasks are executed by replaying a preprogrammed trajectory, m...
Modern industrial robots are traditionally programmed to follow desired trajectories, with the only ...
This paper describes the components ("software agents") that are needed in an autonomous robotic ass...
Force sensing provides robots the capability to accomplish tasks where physical interaction with the...
Whether they are asked to polish or assemble parts, clean the house or open doors, the future genera...
A hybrid force/position control scheme is developed that is suitable for robotic assembly applicatio...
This paper presents our research group's latest results in autonomous force-controlled manipulation ...
Wigand DL. Modeling robot control systems in compliant interaction with the environment. Bridging th...
This paper presents the Compliant Task Generator: a new approach for the automatic conversion of a g...
The use of active compliance enables robots to carry out tasks in the presence of significant sens...
This book provides comprehensive and integrated approaches for rigid and flexible object assembly. I...
Force control has long been cited as a method for dealing with positional uncertainties when perform...
Abstract—Industrial robots are usually position controlled, which requires high accuracy of the robo...
This dissertation focuses on compliant motion planning designed for robotic assembly. A Discrete Com...
Today\u27s robot manipulation requires a sophisticated compliant motion. A new compliant motion meth...