This paper describes the importance of the incorporation of ergonomics, human factor, errors analysis and cognitive engineering approaches in the design of human-robot systems, how consideration of these subjects help designers and workers to avoid hazardous situations and make human-robot interaction in vicinity more effective, reliable and safe. Basing on acquired knowledge and guiding by acquired knowledg e we propose our trial application for disassembly cell
Human-Robot Collaboration (HRC) refers to the interaction of workers and robots in a shared workspac...
In current industrial systems, automation is a very important aspect for assessing manufacturing pro...
In current industrial systems, automation is a very important aspect for assessing manufacturing pro...
This paper describes the importance of the incorporation of ergonomics, human factor, errors analysi...
This paper describes the importance of the incorporation of ergonomics, human factor, errors analysi...
In the current industrial context, the importance of assessing and improving workers' health conditi...
Human robot collaboration is a concept under development that will be applied within manufacturing e...
There is a worldwide interest in implementing collaborative robots (Cobots) to reduce work-related M...
Industrial cobotics is presented as a way of business competitiveness by combining human skills and ...
While substantial effort has been invested in making robots more reliable, experience demonstrates t...
The implementation of smart technologies and physical collaboration with robots in manufacturing can...
Human robot interaction (HRI) often considers the human impact of a robot serving to assist a human ...
Manufacturing assembly industry has traditionally utilized human labor to perform assembly tasks man...
Human-robot teams offer both benefits and new challenges. Human robot teams combine the advantages o...
There is a worldwide interest in implementing collaborative robots (Cobots) to reduce work-related M...
Human-Robot Collaboration (HRC) refers to the interaction of workers and robots in a shared workspac...
In current industrial systems, automation is a very important aspect for assessing manufacturing pro...
In current industrial systems, automation is a very important aspect for assessing manufacturing pro...
This paper describes the importance of the incorporation of ergonomics, human factor, errors analysi...
This paper describes the importance of the incorporation of ergonomics, human factor, errors analysi...
In the current industrial context, the importance of assessing and improving workers' health conditi...
Human robot collaboration is a concept under development that will be applied within manufacturing e...
There is a worldwide interest in implementing collaborative robots (Cobots) to reduce work-related M...
Industrial cobotics is presented as a way of business competitiveness by combining human skills and ...
While substantial effort has been invested in making robots more reliable, experience demonstrates t...
The implementation of smart technologies and physical collaboration with robots in manufacturing can...
Human robot interaction (HRI) often considers the human impact of a robot serving to assist a human ...
Manufacturing assembly industry has traditionally utilized human labor to perform assembly tasks man...
Human-robot teams offer both benefits and new challenges. Human robot teams combine the advantages o...
There is a worldwide interest in implementing collaborative robots (Cobots) to reduce work-related M...
Human-Robot Collaboration (HRC) refers to the interaction of workers and robots in a shared workspac...
In current industrial systems, automation is a very important aspect for assessing manufacturing pro...
In current industrial systems, automation is a very important aspect for assessing manufacturing pro...