In the AGILE project, advanced technologies for optimization, multi-disciplinary colla- boration and knowledge-enabled engineering are developed and applied to conceptual and preliminary aircraft design. Various representative use cases of some conventional and un- conventional aircraft configurations are considered. This paper describes the application of a multilevel optimization (MLO) strategy based on analytical target cascading (ATC) to a use case of rudder design on a conventional aircraft configuration. As a reference a traditional nested optimization method is applied as well. Both methods arrive at the same design optima. In the case of ATC the amount of interaction between the global and the local level optimiza- tions is ...
Industry-relevant multidisciplinary design and optimization (MDO) processes engage numerous computat...
Aircraft design is a complex and lengthy process dependent upon many competing disciplinary analyses...
Due to the ever growing demand for more efficient aircraft novel aircraft concepts have to be explor...
In the AGILE project, advanced technologies for optimization, multi-disciplinary collaboration and k...
This paper presents methodological investigations performed in research activities in the field of M...
In the usual approach to multi-disciplinary optimization (MDO), a few experts in optimization select...
In a product development process, it is crucial to understand and evaluate multiple and synergic asp...
In this paper methodological investigations regarding an innovative Multidisciplinary Design and Opt...
International audienceA value-driven model-based approach concurrently coupling design, manufacturin...
Current state-of-the-art aircraft are complex products. Their design combines various disciplines li...
Designing an airframe is a complex process as it requires knowledge from multiple disciplines such a...
Airlines need to continuously extend and modernise their fleets, to keep up with the challenges of a...
Successful application of multi-disciplinary design and optimization (MDO) methodology in the aerona...
The research and innovation AGILE project developed the next generation of aircraft Multidisciplinar...
Truely optimal solutions to system design can only be obtained if the entire system is considered. I...
Industry-relevant multidisciplinary design and optimization (MDO) processes engage numerous computat...
Aircraft design is a complex and lengthy process dependent upon many competing disciplinary analyses...
Due to the ever growing demand for more efficient aircraft novel aircraft concepts have to be explor...
In the AGILE project, advanced technologies for optimization, multi-disciplinary collaboration and k...
This paper presents methodological investigations performed in research activities in the field of M...
In the usual approach to multi-disciplinary optimization (MDO), a few experts in optimization select...
In a product development process, it is crucial to understand and evaluate multiple and synergic asp...
In this paper methodological investigations regarding an innovative Multidisciplinary Design and Opt...
International audienceA value-driven model-based approach concurrently coupling design, manufacturin...
Current state-of-the-art aircraft are complex products. Their design combines various disciplines li...
Designing an airframe is a complex process as it requires knowledge from multiple disciplines such a...
Airlines need to continuously extend and modernise their fleets, to keep up with the challenges of a...
Successful application of multi-disciplinary design and optimization (MDO) methodology in the aerona...
The research and innovation AGILE project developed the next generation of aircraft Multidisciplinar...
Truely optimal solutions to system design can only be obtained if the entire system is considered. I...
Industry-relevant multidisciplinary design and optimization (MDO) processes engage numerous computat...
Aircraft design is a complex and lengthy process dependent upon many competing disciplinary analyses...
Due to the ever growing demand for more efficient aircraft novel aircraft concepts have to be explor...