Margin Allocation and Tradeoff in Complex Systems Design and Optimization

Presented is an approach for interactive margin management. Existing methods enable a fixed set of allowable margin combinations to be identified, but these have limitations with regard to supporting interactive exploration of the effects of 1) margins on other margins, 2) margins on performance, an...

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Veröffentlicht in:	AIAA journal 2018-07, Vol.56 (7), p.2887-2902
Hauptverfasser:	Guenov, Marin D, Chen, Xin, Molina-Cristóbal, Arturo, Riaz, Atif, van Heerden, Albert S. J, Padulo, Mattia
Format:	Artikel
Sprache:	eng
Schlagworte:	Aircraft components Complex systems Design Design optimization Evaluation Identification methods Interactive systems Parameters Software development tools Systems design
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creator	Guenov, Marin D Chen, Xin Molina-Cristóbal, Arturo Riaz, Atif van Heerden, Albert S. J Padulo, Mattia
description	Presented is an approach for interactive margin management. Existing methods enable a fixed set of allowable margin combinations to be identified, but these have limitations with regard to supporting interactive exploration of the effects of 1) margins on other margins, 2) margins on performance, and 3) margins on the probabilities of constraint satisfaction. To this purpose, the concept of a margin space is introduced. It is bidirectionally linked to the design space to enable the designer to understand how assigning margins on certain parameters limits the allowable margins that can be assigned to other parameters. Also, a novel framework is developed. It incorporates the margin space concept as well as enablers, including interactive visualization techniques, which can aid the designer in exploring the margin and design spaces dynamically, as well as the effects of margins on the probability of constraint satisfaction and on performance. The framework was implemented into a prototype software tool, AirCADia, which was used for a qualitative evaluation by practicing designers. The evaluation, conducted as part of the European Union’s Thermal Overall Integrated Conception of Aircraft project, demonstrates the usefulness of the approach.
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subjects	Aircraft components Complex systems Design Design optimization Evaluation Identification methods Interactive systems Parameters Software development tools Systems design
title	Margin Allocation and Tradeoff in Complex Systems Design and Optimization
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