Industry 4.0 is expected to deliver significant gains in productivity by assimilating several technological advancements including cloud computing, the Internet-of-Things, and smart devices. However, it is unclear how these technologies should be leveraged together to deliver the promised benefits. We present the architecture design of an information system that integrates these technologies to support hybrid manufacturing processes, i.e., processes in which human and robotic workers collaborate. We show how well-structured architecture design is the basis for a modular, complex cyber-physical system that provides horizontal, cross-functional manufacturing process management and vertical control of heterogenous work cells. The modular natur...
In our globalized world, in particular Small and Medium Enterprises of the manufacturing domain face...
Traditional manufacturing has been characterized by limited data exchange between systems, machines ...
Cyber-physical Systems (CPS) in industrial manufacturing facilities demand a continuous interaction ...
Industry 4.0 is expected to deliver significant gains in productivity by assimilating several techno...
In this paper, we outline the architecture design of the HORSE system for support of hybrid manufact...
In this paper, we outline the architecture design of the HORSE system for support of hybrid manufact...
In the Industry 4.0 era, manufacturers strive to remain competitive by using advanced technologies s...
This chapter describes design and development of the HORSE system for processoriented hybrid manufac...
In the Industry 4.0 era, manufacturers strive to remain competitive by using advanced technologies s...
AbstractA developing trend within the manufacturing shop-floor domain is the move of manufacturing a...
Paper presented at the Proceedings of the 24th International Conference on Flexible Automation & Int...
A developing trend within the manufacturing shop-floor domain is the move of manufacturing activitie...
Our next generation of industry—Industry 4.0—holds the promise of increased flexibility in manufactu...
In our globalized world, in particular Small and Medium Enterprises of the manufacturing domain face...
Traditional manufacturing has been characterized by limited data exchange between systems, machines ...
Cyber-physical Systems (CPS) in industrial manufacturing facilities demand a continuous interaction ...
Industry 4.0 is expected to deliver significant gains in productivity by assimilating several techno...
In this paper, we outline the architecture design of the HORSE system for support of hybrid manufact...
In this paper, we outline the architecture design of the HORSE system for support of hybrid manufact...
In the Industry 4.0 era, manufacturers strive to remain competitive by using advanced technologies s...
This chapter describes design and development of the HORSE system for processoriented hybrid manufac...
In the Industry 4.0 era, manufacturers strive to remain competitive by using advanced technologies s...
AbstractA developing trend within the manufacturing shop-floor domain is the move of manufacturing a...
Paper presented at the Proceedings of the 24th International Conference on Flexible Automation & Int...
A developing trend within the manufacturing shop-floor domain is the move of manufacturing activitie...
Our next generation of industry—Industry 4.0—holds the promise of increased flexibility in manufactu...
In our globalized world, in particular Small and Medium Enterprises of the manufacturing domain face...
Traditional manufacturing has been characterized by limited data exchange between systems, machines ...
Cyber-physical Systems (CPS) in industrial manufacturing facilities demand a continuous interaction ...