For the rapid prototyping of a flight engineering vehicle, data from various building blocks and the required engineering tools for designing critical subsystems are crucial elements. In this context, Politecnico di Torino developed an integrated methodology toolset capable of speeding up the design and validation of various space transportation systems, with a focus on microlaunchers and human landing systems. This research was carried out under the direction of the European Space Agency (ESA).
iDREAM: A multidisciplinary methodology and integrated toolset for flight vehicle engineering / Narducci, G.; Viola, N.; Fusaro, R.; Governale, G.; Rimani, J.; Ferretto, D.. - ELETTRONICO. - 33:(2023), pp. 315-322. (Intervento presentato al convegno 3rd International Congress of PhD Students in Aerospace Science and Engineering tenutosi a Bertinoro, IT nel 16/04/2023 - 19/04/2023) [10.21741/9781644902677-46].
iDREAM: A multidisciplinary methodology and integrated toolset for flight vehicle engineering
Narducci, G.;Viola, N.;Fusaro, R.;Governale, G.;Rimani, J.;Ferretto, D.
2023
Abstract
For the rapid prototyping of a flight engineering vehicle, data from various building blocks and the required engineering tools for designing critical subsystems are crucial elements. In this context, Politecnico di Torino developed an integrated methodology toolset capable of speeding up the design and validation of various space transportation systems, with a focus on microlaunchers and human landing systems. This research was carried out under the direction of the European Space Agency (ESA).Pubblicazioni consigliate
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https://hdl.handle.net/11583/2990097
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