Innovation boost for “learning factory”: European research project “SemI40” generates path-breaking findings

Machinery, plant, equipment, logistics and products communicate and cooperate across the globe and across the entire value chain. The aim is to make production more intelligent, faster, more efficient and more flexible.

“Digitization is the economic driver for the innovative clout and competitiveness of European industry”, says Sabine Herlitschka, CEO of Infineon Austria. “We are pooling the strategic skills of all partners across national borders in cooperative research schemes, and through our cooperation and with findings such as those generated by the ‘SemI40’ project, we strengthen the global position of Europe as a production location.”

The research focus of SemI40 was on intelligent production and cyber-physical production systems in order to advance them by means of enhanced data processing and communication methods. With its Industry 4.0 pilot space in Villach, Infineon provides the ideal conditions for testing these new processes and methods in real operation.

Unique concept for secure data traffic between networked factories

One of the outcomes of the project is a novel concept for the secure remote control of production equipment. What makes this concept so special is the fact that it facilitates the simple use of a wide range of devices and also integrates older systems for which no modern IT features have so far been available.

This ensures secure communication between globally networked systems with the most diverse features and interfaces. The innovative security concept led to a new product that is of the highest interest to all consortium partners.

Smart production: higher quality and less energy consumption

Deep Learning methods were used in quality control to make automated and self-controlling error detection possible. The system detects quality deviations in ongoing production and in real time by identifying defect patterns it has memorized. Using big data approaches, the researchers have also been able to identify the causes of defects earlier and provide a lasting improvement of production quality.

Not only do factories learn continuously, they also need to be flexible and energy-efficient. The combination of real operating data with virtual data led to a noteworthy optimization of the entire cooling system – one of the biggest power consumers in semiconductor production.

The algorithms developed simulate the various load options (summer vs winter, day vs night) to operate the cooling system with the lowest possible energy input. The result: energy savings of around 13 percent. The networked and learning factory thus contributes significantly to making production not only smarter, but also greener.

Industry 4.0 and the workplaces of the future

The European project also made an important contribution to developing the workplaces of the future. Various assessment models were used to analyze the technical, business and social changes that Industry 4.0 entails for jobs in production. The focus in all of this was on training and qualification measures.

Within the project SemI40, the Department of Production Management and Logistics analyzed the socio-economic impact of industry 4.0 on production environments. For assessing the implemented smart factory technologies, a mix of methods was developed that includes qualitative and quantitative research approaches.

The knowledge transfer was coordinated by the AAU and facilitated by distributing the research results to the public and the scientific community via networks and platforms.

The fundamental findings from Semi40 have already triggered subsequent research. The iDev40 project (Integrated Development 4.0) kicked off in mid-2018 and launched further research into artificial intelligence and further training and qualification of staff.

European research team from science and industry

SemI40 was a three-year cooperative research project (2016 – 2019) with participants from research institutions, SMEs and international companies. The project budget of the 37 partners from five countries was EUR 62 million, financed by investments from industry and funding from the individual countries and the ECSEL Joint Undertaking program (Electronic Components and Systems for European Leadership).

Austria: AIT Austrian Institute of Technology, AT&S Austria Technologie & Systemtechnik, AVL List, Burgenland University of Applied Sciences, Fraunhofer Austria Research, Infineon Technologies Austria (project leader), Infineon Technologies IT-Services, KAI Kompetenzzentrum Automobil- und Industrieelektronik, Know Center, Virtual Vehicle Forschungsgesellschaft, MCL Materials Center Leoben, Plansee SE, Vienna University of Technolgy, Alpen-Adria University Klagenfurt;
Germany: ELMOS Semiconductor, Mittweida University of Applied Sciences, Fabmatics, Fraunhofer Institut für Produktionstechnik und Automatisierung (IPA), Infineon Technologies, Infineon Technologies Dresden, Institute for Automation and Communication, Metralabs – Neue Technologien und Systeme, Plasmetrex, Robert Bosch, Schiller Automatisierungstechnik, Semikron Elektronik, Systema Systementwicklung Manfred Austen, Dresden University of Technology, znt – Zentrum für Neue Technologien;
France: Ion Beam Services;
Italy: L.P.E. SPA, Politecnico di Milano, Università degli Studi Pavia;
Portugal: Amkor Technology, Critical Manufacturing, Instituto de Telecomunicações – Pólo de Aveiro, Universidade de Aveiro

Andreas Felsberger MSc
+43 463 2700 4075

Media Contact

Dr. Romy Müller UNI Services Alpen-Adria-Universität Klagenfurt

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