Add to ORKGCybermatrix is a novel approach to aircraft design through multidisciplinary optimization, developed within the DLR project VicToria. It combines three aspects: representing a design problem by an approximate Karush-Kuhn-Tucker system, distributing the rows of the system among disciplinary groups, and employing large computational resources and many humans experts in a parallel fashion. For demonstration an optimization of a long-range, twin-engine transport aircraft has been performed
This paper describes a research program aimed at improved methods for multidisciplinary design and o...
Designing an airframe is a complex process as it requires knowledge from multiple disciplines such a...
Within the DLR project VicToria (2016 - 2020) multidisciplinary aircraft design process chains were ...
This paper presents an approach to multi-disciplinary optimization (MDO) of transport aircraft devel...
This paper presents an approach to multi-disciplinary optimization (MDO) of transport aircraft devel...
The DLR project VicToria brings together design methods that necessite use of high-performance compu...
Aviation is undergoing a transformation, fueled by the Corona pandemic, and methods to evaluate new ...
The DLR project VicToria deals also with high fidelity-based MDO with various approaches. Aside from...
The DLR project VicToria deals also with high fidelity-based MDO with various approaches. Aside from...
Recently emerging methodology for optimal design of aircraft treated as a system of interacting phys...
Industry-relevant multidisciplinary design and optimization (MDO) processes engage numerous computat...
The expected computational power that will become available in the next years and decades will allow...
To create revolutionary solutions answering the increasing demands on the air transport system of th...
In this thesis, a multi-fidelity distributed aircraft design process using fully automated Computati...
Designing an airframe is a complex process as it requires knowledge from multiple disciplines such a...
This paper describes a research program aimed at improved methods for multidisciplinary design and o...
Designing an airframe is a complex process as it requires knowledge from multiple disciplines such a...
Within the DLR project VicToria (2016 - 2020) multidisciplinary aircraft design process chains were ...
This paper presents an approach to multi-disciplinary optimization (MDO) of transport aircraft devel...
This paper presents an approach to multi-disciplinary optimization (MDO) of transport aircraft devel...
The DLR project VicToria brings together design methods that necessite use of high-performance compu...
Aviation is undergoing a transformation, fueled by the Corona pandemic, and methods to evaluate new ...
The DLR project VicToria deals also with high fidelity-based MDO with various approaches. Aside from...
The DLR project VicToria deals also with high fidelity-based MDO with various approaches. Aside from...
Recently emerging methodology for optimal design of aircraft treated as a system of interacting phys...
Industry-relevant multidisciplinary design and optimization (MDO) processes engage numerous computat...
The expected computational power that will become available in the next years and decades will allow...
To create revolutionary solutions answering the increasing demands on the air transport system of th...
In this thesis, a multi-fidelity distributed aircraft design process using fully automated Computati...
Designing an airframe is a complex process as it requires knowledge from multiple disciplines such a...
This paper describes a research program aimed at improved methods for multidisciplinary design and o...
Designing an airframe is a complex process as it requires knowledge from multiple disciplines such a...
Within the DLR project VicToria (2016 - 2020) multidisciplinary aircraft design process chains were ...