The paper describes the deployment of the AGILE Development Framework to investigate the Strut Braced Wing aircraft configuration. The design process consists of a multilevel multidisciplinary architecture, progressing from the initial conceptual synthesis to the physics based analysis. All the main disciplinary domains, including on board system design and cost assessment, are accounted for in the assembled workflow. Due to the specific characteristics of the Strut Braced Wing configuration, the aeroelastic analysis is the main focus of the study and it is addressed at both high and low fidelity levels. The integration of the engine-wing system is also included in the design process. All the design competences, which are hosted at the diff...
The present paper deals with the design, analysis and optimization of a 90 passengers turboprop airc...
The research and innovation AGILE project developed the next generation of aircraft Multidisciplinar...
International audienceIncreasing the wing aspect ratio appears as a straightforward way to improve a...
Novel configuration design choices may help achieve revolutionary goals for reducing fuel burn, emis...
Due to its drag saving potential through application of high aspect ratio wings, the strut-braced wi...
As part of H2020 EU project "AGILE", A Collaborative System of Systems Multidisciplinary Design Opti...
In this paper, multidisciplinary design optimization within the AGILE European project is applied to...
The research and innovation EU funded AGILE project has developed the next generation of aircraft Mu...
This paper presents methodological investigations performed in research activities in the field of M...
At University of Naples Federico II (UniNa) the AGILE paradigm has been assumed as guideline to deve...
In this paper methodological investigations regarding an innovative Multidisciplinary Design and Opt...
High aspect ratio strut braced aircraft can significantly reduce the induced drag. The inherent anis...
This article belongs to a series of publications on the design and assessment of the MULDICON UCAV c...
The present paper deals with the design, analysis and optimization of a 90 passengers turboprop airc...
The research and innovation AGILE project developed the next generation of aircraft Multidisciplinar...
International audienceIncreasing the wing aspect ratio appears as a straightforward way to improve a...
Novel configuration design choices may help achieve revolutionary goals for reducing fuel burn, emis...
Due to its drag saving potential through application of high aspect ratio wings, the strut-braced wi...
As part of H2020 EU project "AGILE", A Collaborative System of Systems Multidisciplinary Design Opti...
In this paper, multidisciplinary design optimization within the AGILE European project is applied to...
The research and innovation EU funded AGILE project has developed the next generation of aircraft Mu...
This paper presents methodological investigations performed in research activities in the field of M...
At University of Naples Federico II (UniNa) the AGILE paradigm has been assumed as guideline to deve...
In this paper methodological investigations regarding an innovative Multidisciplinary Design and Opt...
High aspect ratio strut braced aircraft can significantly reduce the induced drag. The inherent anis...
This article belongs to a series of publications on the design and assessment of the MULDICON UCAV c...
The present paper deals with the design, analysis and optimization of a 90 passengers turboprop airc...
The research and innovation AGILE project developed the next generation of aircraft Multidisciplinar...
International audienceIncreasing the wing aspect ratio appears as a straightforward way to improve a...