Abstract
The current and most important request for industrial automation is from Small and Medium sized Enterprisess (SMEs). This is due to the fact that SMEs need to increase their competitiveness to withstand the trend of outsourcing to low cost countries. However, there are good examples of the strong competitiveness of European SMEs, when they are able to utilize industrial automation for repetitive work, while utilizing human labour for tasks requiring human skills, like sensing, flexibility and cognitive skills.
The Intelligent Factory Space (IFS) concept represents a framework for interaction between human and an automated system (digital factory). The IFS is composed of multiple layers (representing different services for the human user) and many modular components, which can be extended to the users’ requirements.
IFS relies on industrial standards to communicate with existing machines, while using novel two-way communication possibilities to feedback to the human user. In this paper the general concept for IFS is presented along with a reference implementation, where the concept is implemented in the situation ofhuman-robot collaboration.
The Intelligent Factory Space (IFS) concept represents a framework for interaction between human and an automated system (digital factory). The IFS is composed of multiple layers (representing different services for the human user) and many modular components, which can be extended to the users’ requirements.
IFS relies on industrial standards to communicate with existing machines, while using novel two-way communication possibilities to feedback to the human user. In this paper the general concept for IFS is presented along with a reference implementation, where the concept is implemented in the situation ofhuman-robot collaboration.
