SKILLPRO | Skill-based Propagation of Plug&Produce-Devices in Reconfigurable Production Systems by AML

Summary

It is increasingly evident that the era of mass production is being replaced by the era of market niches. The key to creating products that can meet the demands of a diversified customer base is a short development cycle yielding low cost, high quality goods in sufficient quantity to meet demand. This makes flexibility an increasingly important attribute to manufacturing. In response the reconfigurable manufacturing system (RMS) concept has emerged in the last few years as an attempt to achieve the required manufacturing flexibility. A RMS proposes a manufacturing system where machine components, machines, cells, or material handling units can be added, removed, modified, or interchanged as needed to respond quickly to changing requirements. Compared to flexible manufacturing systems (FMS), this approach is believed to have the potential to offer a cheaper solution, in the long run [...] as it can increase the life and utility of a manufacturing system. A lot of research has been conducted towards establishing such a production system, the most prominent of those approaches being the "Plug&Produce" paradigm - in analogy to the "Plug&Play" paradigm of the Computer Industry. 'Plug-and-Produce' allows the automatic configuration and seamless integration of heterogeneous devices into a system. However, while the "Plug&Produce" paradigm has contributed greatly towards reducing commissioning effort and ramp-up time for new components, it has been too focussed on solving interoperability issues by means of standardized interfaces and service or agent-oriented ICT-architectures. Enhancing these approaches by taking into account the knowledge about the capabilities/skills of the new devices and their impact on the overall capabilities/skills of the production system in terms of operational procedures and economical KPI would increase the versatility and efficiency of production sites.

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More information & hyperlinks
Web resources: http://www.skillpro-project.eu/
https://cordis.europa.eu/project/id/314247
Start date: 01-10-2012
End date: 30-09-2015
Total budget - Public funding: 5 109 172,00 Euro - 3 840 000,00 Euro
Cordis data

Original description

"It is increasingly evident that the era of mass production is being replaced by the era of market niches. The key to creating products that can meet the demands of a diversified customer base is a short development cycle yielding low cost, high quality goods in sufficient quantity to meet demand. This makes flexibility an increasingly important attribute to manufacturing.
In response the reconfigurable manufacturing system (RMS) concept has emerged in the last few years as an attempt to achieve the required manufacturing flexibility. A RMS proposes a manufacturing system where machine components, machines, cells, or material handling units can be added, removed, modified, or interchanged as needed to respond quickly to changing requirements. Compared to flexible manufacturing systems (FMS), this approach is believed to have the potential to offer a cheaper solution, in the long run [...] as it can increase the life and utility of a manufacturing system.
A lot of research has been conducted towards establishing such a production system, the most prominent of those approaches being the ""Plug&Produce"" paradigm - in analogy to the ""Plug&Play"" paradigm of the Computer Industry. 'Plug-and-Produce' allows the automatic configuration and seamless integration of heterogeneous devices into a system.
However, while the ""Plug&Produce"" paradigm has contributed greatly towards reducing commissioning effort and ramp-up time for new components, it has been too focussed on solving interoperability issues by means of standardized interfaces and service or agent-oriented ICT-architectures.
Enhancing these approaches by taking into account the knowledge about the capabilities/skills of the new devices and their impact on the overall capabilities/skills of the production system in terms of operational procedures and economical KPI would increase the versatility and efficiency of production sites."

Status

ONG

Call topic

FoF.NMP.2012-3

Update Date

27-10-2022
Geographical location(s)
Structured mapping
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Factories of the Future Partnership - Made in Europe Partnership

FP7 - Factories of the Future
FP7-FoF-2012
FoF.NMP.2012-3 - Intelligent production machines and 'plug-and-produce' devices for the adaptive system integration of automation equipment
Collaborative Project targeted to a special group (such as SMEs)
Standards
Comment:
Economic sustainability
Flexibility
Supply chain and value network efficiency
Environmental sustainability
Circular economy
Co-evolution of products-processes-production systems (‘industrial symbiosis’)
Social sustainability
Increasing human achievements in manufacturing systems
Occupational safety and health
Information and communication technologies
IoT - Internet of Things
Human Machine Interfaces
Advanced and ubiquitous human machine interaction
Data spaces
Digital manufacturing platforms - data platforms
Mechatronics and robotics technologies
Control technologies
Intelligent machinery components, actuators and end-effectors
Engineering tools
System modelling - digital twins, simulation