- Prof. Dr. Eike Stumpf
- Faculty / Institution:
- Mechanical Engineering
- Societal Challenges
- Project duration:
- 01.09.2019 to 31.08.2022
- EU contribution:
- 4.499.670,43 euros
Towards cyber-physical collaborative aircraft development
A major challenge in the transport sector is to make economic growth compatible with sustainability and environmental constraints, while remaining competitive and innovative. The development of aeronautical products is a complex multidisciplinary process with requirements and constraints on the air transport system as a whole, the aircraft, and all the individual components to be produced. A major challenge impeding an efficient and cost-effective design processes is the integration of the various levels of the aeronautical supply chain. Therefore, the aeronautical industry needs to connect all the people, skills and technologies involved in its collaborative, multi-national and cross organizational processes, by means of a digital representation of production systems, supply chains, and seamless operations across diverse disciplines, during the entire life-cycle of the product.
The high level objective of AGILE 4.0 is to bring significant reductions in aircraft development costs and time-to-market through the implementation of an integrated cyber-physical aeronautical supply chain, thereby increasing the competitiveness of the European aircraft industry, from integrators and high-tiers suppliers to SMEs, leading to innovative and more sustainable aircraft products.
AGILE 4.0 targets the digital transformation of main main pillars of the aeronautical supply-chain: design, production and certification and manufacturing.The composition of the AGILE 4.0 consortium and capabilities available enable to address realistic development scenarios integrating multiple stakeholders and covering all the aspects of the development of complex aeronautical systems.
AGILE 4.0 will provide the aircraft industry with a way to model, assess, and optimize complex systems addressing the entire life cycle. The technologies developed will enable stake-holders and actors of the aeronautical supply chain to perform trade-off which have never been possible to model before.
- Deutsches Zentrum für Luft- und Raumfahrt e.V., Germany (Coordinator)
- Airbus Defence and Space GmbH, Germany
- Bombardier INC, Canada
- CFS Engineering SA, Switzerland
- Federalnoe Gosudarstvennoe Unitarnoe Predpriyatie Centralnii Institutaviacionogo Motorostroeniya Imeni pi Baranova, Russia
- Concordia University, Canada
- Embraer SA, Brazil
- Fokker Aerostructures BV, Netherlands
- Institut Superieur de l’Aeronautique et de l’Espace, Fance
- KE-Works BV, Netherlands
- Leonardo – Societa per Azioni, Italy
- Stichting Nationaal Lucht- en Ruimtevaartlaboratorium, Netherlands
- Office National d’Etudes et de Recherches Aerospatiales, France
- Politecnico di Torino, Italy
- Federal State Unitary Enterprise the Central Aerohydrodynamic Institute named after Prof. N.E. Zhukovsky, Russia
- Technische Universiteit Delft, Netherlands
- Universita Degli Studi di Napoli Federico II, Italy