This paper presents methodological investigations performed in research activities in the field of Multi-disciplinary Design and Optimization (MDO) for overall aircraft design in the EU funded research project AGILE (2015–2018). In the AGILE project a team of 19 industrial, research and academic partners from Europe, Canada and Russia are working together to develop the next generation of MDO environment that targets significant reductions in aircraft development costs and time to market, leading to cheaper and greener aircraft. The paper introduces the AGILE project structure and describes the achievements of the 1st year that led to a reference distributed MDO system. A focus is then made on different novel optimization techniques studied...
The aerospace engineering typically deals with multidisciplinary complex systems, and narrow margins...
In the AGILE project, advanced technologies for optimization, multi-disciplinary collaboration and k...
The ever-increasing complexity of systems under development in aerospace is demanding to streamline ...
This paper presents methodological investigations performed in research activities in the field of M...
In this paper, an optimization technique in aircraft design field, based on game theory and evolutio...
In this paper methodological investigations regarding an innovative Multidisciplinary Design and Opt...
The EU funded AGILE project is developing the next generation of aircraft Multidisciplinary Design a...
AGILE targets multidisciplinary optimization using distributed analysis frameworks. The involvement ...
This paper presents methodological investigations performed in research activities in the field of M...
The research and innovation AGILE project developed the next generation of aircraft Multidisciplinar...
The research and innovation EU funded AGILE project has developed the next generation of aircraft Mu...
Aircraft design is a complex and lengthy process dependent upon many competing disciplinary analyses...
As part of H2020 EU project "AGILE", A Collaborative System of Systems Multidisciplinary Design Opti...
In the usual approach to multi-disciplinary optimization (MDO), a few experts in optimization select...
This paper examines the initial development and application of a framework for Multidisciplinary Des...
The aerospace engineering typically deals with multidisciplinary complex systems, and narrow margins...
In the AGILE project, advanced technologies for optimization, multi-disciplinary collaboration and k...
The ever-increasing complexity of systems under development in aerospace is demanding to streamline ...
This paper presents methodological investigations performed in research activities in the field of M...
In this paper, an optimization technique in aircraft design field, based on game theory and evolutio...
In this paper methodological investigations regarding an innovative Multidisciplinary Design and Opt...
The EU funded AGILE project is developing the next generation of aircraft Multidisciplinary Design a...
AGILE targets multidisciplinary optimization using distributed analysis frameworks. The involvement ...
This paper presents methodological investigations performed in research activities in the field of M...
The research and innovation AGILE project developed the next generation of aircraft Multidisciplinar...
The research and innovation EU funded AGILE project has developed the next generation of aircraft Mu...
Aircraft design is a complex and lengthy process dependent upon many competing disciplinary analyses...
As part of H2020 EU project "AGILE", A Collaborative System of Systems Multidisciplinary Design Opti...
In the usual approach to multi-disciplinary optimization (MDO), a few experts in optimization select...
This paper examines the initial development and application of a framework for Multidisciplinary Des...
The aerospace engineering typically deals with multidisciplinary complex systems, and narrow margins...
In the AGILE project, advanced technologies for optimization, multi-disciplinary collaboration and k...
The ever-increasing complexity of systems under development in aerospace is demanding to streamline ...