AbstractThe fluctuation of markets and increasing product variants result in uncertain production volumes. Production systems must be able to continually rescale their output without loss of efficiency. This paper presents an axiomatic design approach to allocate complex final assembly tasks to process modules of human-robot collaboration in a flexibly linked layout. After a brief introduction into axiomatic design and the automation capability assessment, the systematic of task allocation to human workers and lightweight robots is described. This paper concludes with an automotive industry use case of the presented approach in the ARENA2036 research campus
AbstractThe automotive industry is facing significant challenges due to shortened product lifecycles...
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...
In the context of the Industry 4.0 wave, which is currently making its way into production engineeri...
The trend towards mass customization puts traditional automation solutions under pressure. In additi...
AbstractBoth humans and robots have crucial advantages regarding industrial assembly processes. Whil...
The design of assembly systems with human-robot collaboration (HRC) is a complex task due to the var...
Human Robot Collaboration assembly cells benefit the capabilities and skills of both industrial robo...
Industrial robots are on the verge of emerging from their cages, and entering the final assembly to ...
The automation level of today’s industries is categorized as high. Some specific areas cannot be ful...
Over the past decades, product design has been very much concerned with the topics of Design for Man...
The design of human-robot-collaborative workplaces is a challenging task, whose outcome is highly de...
Flexible manufacturing is something that most companies is aiming to accomplish due to the increased...
Fast changing markets and the trend towards increasing individualization of products make the abilit...
Human robot collaboration (HRC) in assembly processes, is a concept which aims to integrate the huma...
AbstractThe automotive industry is facing significant challenges due to shortened product lifecycles...
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...
In the context of the Industry 4.0 wave, which is currently making its way into production engineeri...
The trend towards mass customization puts traditional automation solutions under pressure. In additi...
AbstractBoth humans and robots have crucial advantages regarding industrial assembly processes. Whil...
The design of assembly systems with human-robot collaboration (HRC) is a complex task due to the var...
Human Robot Collaboration assembly cells benefit the capabilities and skills of both industrial robo...
Industrial robots are on the verge of emerging from their cages, and entering the final assembly to ...
The automation level of today’s industries is categorized as high. Some specific areas cannot be ful...
Over the past decades, product design has been very much concerned with the topics of Design for Man...
The design of human-robot-collaborative workplaces is a challenging task, whose outcome is highly de...
Flexible manufacturing is something that most companies is aiming to accomplish due to the increased...
Fast changing markets and the trend towards increasing individualization of products make the abilit...
Human robot collaboration (HRC) in assembly processes, is a concept which aims to integrate the huma...
AbstractThe automotive industry is facing significant challenges due to shortened product lifecycles...
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...