Recent developments in manufacturing technologies, also known as Industry 4.0, seek to build Smart Factories where supply chains and production lines are equipped with a higher level of automation. However, this significant innovation does not entirely eliminate the need for the presence of human operators; on the contrary, it requires them to collaborate with robots and execute hybrid tasks. Thus, creating safe workspaces for human operators is crucial for the future of factories where humans and robots collaborate closely in common workspaces. The uncertainty of human behavior and, consequently, of the actual execution of workflows, pose significant challenges to the safety of collaborative applications. This paper extends our earlier wor...
Smart manufacturing and smart factories depend on automation and robotics, whereas human–robot colla...
Traditionally safety in industrial manufacturing environments has been addressed by rigid separation...
In order for humans and robots to collaborate on an assembly line, safety of operations is a prerequ...
Recent developments in manufacturing technologies, also known as Industry 4.0, seek to build Smart F...
Human-Robot Collaboration is increasingly prominent in peo- ple's lives and in the industrial domai...
Human-robot collaboration (HRC) imposes potential frequent physical interaction and/or close proximi...
Whereas in classic robotic applications there is a clear segregation between robots and operators, n...
Human-Robot Collaboration (HRC) is rapidly replacing the traditional application of robotics in the ...
Close interactions with a human operator are an important safety concern for collaborative robot sys...
We present a tool-supported approach for the synthesis, verification and validation of the control s...
We present a tool-supported approach to the synthesis, verification, and testing of the control soft...
A new methodology for describing the safety of human-robot collaborations is presented. Taking a tas...
Manufacturing assembly industry has traditionally utilized human labor to perform assembly tasks man...
High payload industrial robots, unlike collaborative robots are not designed to work together with h...
Smart manufacturing and smart factories depend on automation and robotics, whereas human–robot colla...
Traditionally safety in industrial manufacturing environments has been addressed by rigid separation...
In order for humans and robots to collaborate on an assembly line, safety of operations is a prerequ...
Recent developments in manufacturing technologies, also known as Industry 4.0, seek to build Smart F...
Human-Robot Collaboration is increasingly prominent in peo- ple's lives and in the industrial domai...
Human-robot collaboration (HRC) imposes potential frequent physical interaction and/or close proximi...
Whereas in classic robotic applications there is a clear segregation between robots and operators, n...
Human-Robot Collaboration (HRC) is rapidly replacing the traditional application of robotics in the ...
Close interactions with a human operator are an important safety concern for collaborative robot sys...
We present a tool-supported approach for the synthesis, verification and validation of the control s...
We present a tool-supported approach to the synthesis, verification, and testing of the control soft...
A new methodology for describing the safety of human-robot collaborations is presented. Taking a tas...
Manufacturing assembly industry has traditionally utilized human labor to perform assembly tasks man...
High payload industrial robots, unlike collaborative robots are not designed to work together with h...
Smart manufacturing and smart factories depend on automation and robotics, whereas human–robot colla...
Traditionally safety in industrial manufacturing environments has been addressed by rigid separation...
In order for humans and robots to collaborate on an assembly line, safety of operations is a prerequ...