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CSA-Industy4.E | Coordination and Support Action for Industry4.E

01-10-2018

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31-03-2021

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Technologies and enablers
Knowledge-workers and operators
Result items:
Citizen Engagement - Careers in Industry4.0 Page
Citizen Engagement - Careers in Industry4.0 Page

The Industry4.E Lighthouse team has created careers resources targetted at citizens considering STEM careers, up-skilling or re-skilling, and SMEs interested in the training and resources available to get involved in Industry4.0.

Visit Industry4.E careers webpage today and download our Industy4.0 careers opportunities flyer 

MANTIS | Cyber Physical System based Proactive Collaborative Maintenance

01-05-2015

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31-07-2018

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Technologies and enablers
Information and communication technologies
Human Machine Interfaces
Comment:

One of the objectives of the MANTIS project is to design and develop the human-machine interface (HMI) to deal with the intelligent optimisation of the production processes through the monitoring and management of its components. MANTIS HMI should allow intelligent, context-aware human-machine interaction by providing the right information, in the right modality and in the best way for users when needed. To achieve this goal, the user interface should be highly personalised and adapted to each specific user or user role. Since MANTIS comprises eleven distinct use cases, the design of such HMI presents a great challenge. Any unification of the HMI design may impose the constraints that could result in the HMI with a poor usability.

QCOALA | Quality Control of Aluminium Laser-welded Assemblies

01-09-2010

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31-08-2013

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Technologies and enablers
Information and communication technologies
Comment: The project focuses on ICT for agile and environmentally friendly manufacturing. The advanced level of automation that the fully integrated (laser) welding station will offer, will allow the approach not only for mainstream high-volume manufacture, but also for small-series production. The application of the laser scanner, for instance, allows fast, versatile programming of laser paths, which can be altered for each product, if necessary. The dual-wavelength nature of the scanner will facilitate a fast change-over between the welding of copper and aluminium interconnections. Smallscale manufacturing (and to some extent large-scale manufacturing) requires traceability of products, through its production life and its in-serve lifecycle. Using the same laser source for marking will facilitate this aspect of small-series production.
Advanced material processing technologies
Photonics-based materials processing technologies

THERMOBOT | Autonomous robotic system for thermo-graphic detection of cracks

01-01-2012

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31-12-2014

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Technologies and enablers
Advanced material processing technologies
Comment:

http://thermobot.eu/wp-content/uploads/2011/09/20130821_Infratec_DGZfP_public.pdf

Engineering tools
System modelling - digital twins, simulation
Comment:

http://thermobot.eu/wp-content/uploads/2011/09/20130409_UNIPD_Crack_detection_HES-13.dochttp://thermobot.eu/wp-content/uploads/2011/09/20130409_UNIPD_Crack_detection_HES-13.doc

DES-MOLD | Feature-Based Design and Modelling for Injection-molding Optimization

01-09-2012

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31-08-2015

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Technologies and enablers
Information and communication technologies
Engineering tools
System modelling - digital twins, simulation
Comment:

Des-MOLD imply the development of a Geometry module : software to simplify the design of geometry to a set of primitives. It allows the system to compare designs.

Des-MOLD is an intelligent knowledge-based system which presents the use of different Artificial Intelligence techniques to develop a decision support system for designers of plastic parts. Our approach is based on computational argumentation (ARG) and case-based reasoning (CBR) to offer both a recommendation about the design and the reasoning process followed in order to select that solution. Given the geometry of the part, type of material, mould’s material and defects to be avoid, the system combines a knowledge-based system (KBS) based on past experiences with designers social debates for providing a set of recommendations, enabling to update the knowledge database by reusing and adapting solutions from previous designs.

Our approach is based on computational argumentation (ARG) and case-based reasoning (CBR) to offer both a recommendation about the design and the reasoning process followed in order to select that solution. Given the geometry of the part, type of material, mould’s material and defects to be avoid, the system combines a knowledge-based system (KBS) based on past experiences with designers social debates for providing a set of recommendations, enabling to update the knowledge database by reusing and adapting solutions from previous designs

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