This paper presents a critical discussion on the automated problem formulation and workflow creation approach developed within the European project AGILE to support and accelerate the setup of aircraft MDO workflows in a large, heterogeneous team of experts. The developed framework is based on a methodological approach, called the AGILE paradigm, where a complete MDO system is formulated and executed in five main steps. In Step I the requirements are collected, in Step II a repository of disciplinary tools is established, in Step III the design optimization problem is formulated and structured according to a selected MDO architecture, in Step IV an executable workflow is assembled and finally operated in Step V. All steps have been streamli...
The research and innovation AGILE project has developed an approach, the so-called AGILE Paradigm, f...
In this paper, a methodology to connect the multidisciplinary design analysis and optimization (MDAO...
The ever-increasing complexity of systems under development in aerospace is demanding to streamline ...
This paper presents a critical discussion on the automated problem formulation and workflow creation...
The EU funded AGILE project is developing the next generation of aircraft Multidisciplinary Design a...
The research and innovation EU funded AGILE project has developed the next generation of aircraft Mu...
After almost three decades of evolution, it is not yet possible to apply MDO in collaborative projec...
The AGILE project has developed the next generation of aircraft Multidisciplinary Design and Optimiz...
Multidisciplinary Design Optimization (MDO) frameworks, capable of performing overall aircraft desig...
In this paper, a new application for collaborative Multidisciplinary Design Analysis and Optimizatio...
The research and innovation AGILE project has developed an approach, the so-called AGILE Paradigm, f...
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...
The need to continuously design better aircraft is challenging on multiple fronts: the existing tube...
This paper presents methodological investigations performed in research activities in the field of M...
The research and innovation AGILE project has developed an approach, the so-called AGILE Paradigm, f...
In this paper, a methodology to connect the multidisciplinary design analysis and optimization (MDAO...
The ever-increasing complexity of systems under development in aerospace is demanding to streamline ...
This paper presents a critical discussion on the automated problem formulation and workflow creation...
The EU funded AGILE project is developing the next generation of aircraft Multidisciplinary Design a...
The research and innovation EU funded AGILE project has developed the next generation of aircraft Mu...
After almost three decades of evolution, it is not yet possible to apply MDO in collaborative projec...
The AGILE project has developed the next generation of aircraft Multidisciplinary Design and Optimiz...
Multidisciplinary Design Optimization (MDO) frameworks, capable of performing overall aircraft desig...
In this paper, a new application for collaborative Multidisciplinary Design Analysis and Optimizatio...
The research and innovation AGILE project has developed an approach, the so-called AGILE Paradigm, f...
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...
The need to continuously design better aircraft is challenging on multiple fronts: the existing tube...
This paper presents methodological investigations performed in research activities in the field of M...
The research and innovation AGILE project has developed an approach, the so-called AGILE Paradigm, f...
In this paper, a methodology to connect the multidisciplinary design analysis and optimization (MDAO...
The ever-increasing complexity of systems under development in aerospace is demanding to streamline ...