The research and innovation AGILE project developed the next generation of aircraft Multidisciplinary Design and Optimization processes, which target significant reductions in aircraft development costs and time to market, leading to more cost effective and greener aircraft solutions. The high level objective is the reduction of the lead time of 40% with respect to the current state-of-the-art. 19 industry, research and academia partners from Europe, Canada and Russia developed solutions to cope with the challenges of collaborative design and optimization of complex products. In order to accelerate the deployment of large-scale, collaborative multidisciplinary design and optimization (MDO), a novel methodology, the so-called AGILE Paradigm, has been developed. Furthermore, the AGILE project has developed and released a set of open technologies enabling the implementation of the AGILE Paradigm approach. The collection of all the technologies constitutes AGILE Framework, which has been deployed for the design and the optimization of multiple aircraft configurations. This paper focuses on the application of the AGILE Paradigm on seven novel aircraft configurations, proving the achievement of the project’s objectives.
Streamlining cross-organizational aircraft development: Results from the agile project / Ciampa, P. D.; Prakasha, P. S.; Torrigiani, F.; Walther, J. -N.; Lefebvre, T.; Bartoli, N.; Timmermans, H.; Vecchia, P. D.; Stingo, L.; Rajpal, D.; van Gent, I.; La Rocca, G.; Fioriti, M.; Cerino, G.; Maierl, R.; Charbonnier, D.; Jungo, A.; Aigner, B.; Anisimov, K.. - (2019), pp. 1-45. (Intervento presentato al convegno AIAA Aviation 2019 Forum tenutosi a usa nel 2019) [10.2514/6.2019-3454].
Streamlining cross-organizational aircraft development: Results from the agile project
Fioriti M.;
2019
Abstract
The research and innovation AGILE project developed the next generation of aircraft Multidisciplinary Design and Optimization processes, which target significant reductions in aircraft development costs and time to market, leading to more cost effective and greener aircraft solutions. The high level objective is the reduction of the lead time of 40% with respect to the current state-of-the-art. 19 industry, research and academia partners from Europe, Canada and Russia developed solutions to cope with the challenges of collaborative design and optimization of complex products. In order to accelerate the deployment of large-scale, collaborative multidisciplinary design and optimization (MDO), a novel methodology, the so-called AGILE Paradigm, has been developed. Furthermore, the AGILE project has developed and released a set of open technologies enabling the implementation of the AGILE Paradigm approach. The collection of all the technologies constitutes AGILE Framework, which has been deployed for the design and the optimization of multiple aircraft configurations. This paper focuses on the application of the AGILE Paradigm on seven novel aircraft configurations, proving the achievement of the project’s objectives.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2979654