AbstractA variety of robot programming techniques exists ranging from constraint based over skill based programming to learning by demonstration. In order to extend their applicability propose to join some of these approaches. We therefore combine visual CAD based programming with skill based programming through demonstration. This constitutes the basis of the outlines strategy. We then employ human feedback through hand gestures for incremental parameter modification. We propose this approach in order to potentially lower times to production for new products and allow efficient use of robotics in low lot-sizes especially in the context of assembly for construction
There is a great demand for the robotization of manufacturing processes fea-turing monotonous labor....
Today’s manufacturing industry faces the challenge of simultaneously achieving a higher efficiency a...
Nowadays, industrial robot manipulators and manufacturing processes are associated as never before. ...
Conventional industrial robots are heavily dependent on hard automation that requires pre-specified ...
Conventional industrial robots are heavily dependent on hard automation that requires pre-specified ...
Recent intuitive robot programming approaches operate on task level, enabling programmers to intuiti...
In this paper we describe our NLP supported programming-by-demonstration approach to high-level robo...
International audienceThis paper presents a novel approach for robot instruction for assembly tasks....
This paper explores Gesture-Based Programming as a paradigm for programming robotic agents. Gesture-...
There is an ongoing shift in industries from mass production to low-batch-production with highly ind...
Service robots require simple programming techniques allowing users with little or no technical expe...
This paper explores Gesture-Based Programming as a paradigm for programming robotic agents. Gesture-...
Abstract | Robots have been used successfully in structured settings, where the environment is con-t...
Automatic assembly sequencing and visualization tools are valuable in determining the best assembly ...
A new approach to skill acquisition in assembly is proposed. An assembly skill is represented by a h...
There is a great demand for the robotization of manufacturing processes fea-turing monotonous labor....
Today’s manufacturing industry faces the challenge of simultaneously achieving a higher efficiency a...
Nowadays, industrial robot manipulators and manufacturing processes are associated as never before. ...
Conventional industrial robots are heavily dependent on hard automation that requires pre-specified ...
Conventional industrial robots are heavily dependent on hard automation that requires pre-specified ...
Recent intuitive robot programming approaches operate on task level, enabling programmers to intuiti...
In this paper we describe our NLP supported programming-by-demonstration approach to high-level robo...
International audienceThis paper presents a novel approach for robot instruction for assembly tasks....
This paper explores Gesture-Based Programming as a paradigm for programming robotic agents. Gesture-...
There is an ongoing shift in industries from mass production to low-batch-production with highly ind...
Service robots require simple programming techniques allowing users with little or no technical expe...
This paper explores Gesture-Based Programming as a paradigm for programming robotic agents. Gesture-...
Abstract | Robots have been used successfully in structured settings, where the environment is con-t...
Automatic assembly sequencing and visualization tools are valuable in determining the best assembly ...
A new approach to skill acquisition in assembly is proposed. An assembly skill is represented by a h...
There is a great demand for the robotization of manufacturing processes fea-turing monotonous labor....
Today’s manufacturing industry faces the challenge of simultaneously achieving a higher efficiency a...
Nowadays, industrial robot manipulators and manufacturing processes are associated as never before. ...