The design of human-robot-collaborative workplaces is a challenging task, whose outcome is highly dependent on the assembly planners knowledge and experience, as usually only a small fraction of the design space is considered. This often results in unappropriated workplace designs with process-related and economical drawbacks. This paper outlines an approach to a collaborative workplace design tool-chain considering different strengths of robot and human, starting from assembly group CAD model data input to an ontology based resource allocation and permutations on workplace design proposals. All steps are connected by the open exchange data format of AutomationML
In the context of the Industry 4.0 wave, which is currently making its way into production engineeri...
The introduction of Industry 4.0 technologies and automation in production and assembly is progressi...
The automation level of today’s industries is categorized as high. Some specific areas cannot be ful...
The trend towards mass customization puts traditional automation solutions under pressure. In additi...
The innovation-driven Industry 5.0 leads us to consider humanity in a prominent position as the cent...
The innovation-driven Industry 5.0 leads us to consider humanity in a prominent position as the cent...
Exploiting the collaboration between human and robots is a fundamental target for industrial Cyber-P...
Over the last decades, the Industrial Automation domain at factory shop floors experienced an expone...
Manufacturing processes and industrial systems gradually change their traditional layouts and config...
The study describes increasing the productivity of the production process using robotization. The ap...
AbstractThe fluctuation of markets and increasing product variants result in uncertain production vo...
The design of assembly systems with human-robot collaboration (HRC) is a complex task due to the var...
AbstractThe Human Robot Collaborative (HRC) workplace design and the automatic task allocation can s...
The diffusion of Human-Robot Collaborative cells is prevented by several barriers. Classical control...
Currently, greater attention is paid to the nature of work and workplaces within the digitized indus...
In the context of the Industry 4.0 wave, which is currently making its way into production engineeri...
The introduction of Industry 4.0 technologies and automation in production and assembly is progressi...
The automation level of today’s industries is categorized as high. Some specific areas cannot be ful...
The trend towards mass customization puts traditional automation solutions under pressure. In additi...
The innovation-driven Industry 5.0 leads us to consider humanity in a prominent position as the cent...
The innovation-driven Industry 5.0 leads us to consider humanity in a prominent position as the cent...
Exploiting the collaboration between human and robots is a fundamental target for industrial Cyber-P...
Over the last decades, the Industrial Automation domain at factory shop floors experienced an expone...
Manufacturing processes and industrial systems gradually change their traditional layouts and config...
The study describes increasing the productivity of the production process using robotization. The ap...
AbstractThe fluctuation of markets and increasing product variants result in uncertain production vo...
The design of assembly systems with human-robot collaboration (HRC) is a complex task due to the var...
AbstractThe Human Robot Collaborative (HRC) workplace design and the automatic task allocation can s...
The diffusion of Human-Robot Collaborative cells is prevented by several barriers. Classical control...
Currently, greater attention is paid to the nature of work and workplaces within the digitized indus...
In the context of the Industry 4.0 wave, which is currently making its way into production engineeri...
The introduction of Industry 4.0 technologies and automation in production and assembly is progressi...
The automation level of today’s industries is categorized as high. Some specific areas cannot be ful...