-Recent evolutions of computer-aided product development and massive integration of numerical simulations to the design process require new methodologies to manage the continuously increasing flow of data and decrease the computational costs of numerical design of experiments. This paper presents a literature review of Simulation Data Management strategy and adaptive design of experiments methodology to detect possible links between these two fields and identify potential improvements for simulation process shortening. Adaptive design of experiments is based on several methods implying a profusion of different technics. Re-using best practices may help designers to choose relevant methods to reduce computational cost and simulation process duration.
Le calcul de structures mécaniques est un outil d'aideà la conception aujourd'hui largement utilisé. Quelle que soit la méthode de calcul de structures utilisée, l'adaptation du modèle de conception (géométrie, données technologiques, spécifications fonctionnelles) en un modèle de comportement spécifique au calcul de structures est uneétape nécessaire nommée idéalisation. Cetteétape particulièrement critique repose principalement sur l'expertise de l'analyste. Cet article propose une méthode d'aide aux choix d'idéalisation d'un modèle CAO en un modèle de comportement. La méthode proposée peut aider un analysteà effectuer ses choix d'idéalisation en respectant la qualité, le coût et les délais de simulation du système analysé. Elle est basée sur l'exploitation de résultats obtenus sur des calculs de référence, jugés similaires au calculà traiter.
Today's CAD modelers are very efficient in processing 3D shapes of CAD models by means of B-Rep modeling operators such as pad, pocket, shaft, groove, hole, fillet and so on. At a lower description level, those modeling operators are based on Euler operators acting directly on the faces, edges and vertices of the B-Rep models. Using such a top-down approach, the designers do not have to work on low-level geometric entities, but rather manipulate so-called structural and detail features to shape directly the CAD models. However, there is still a gap between the shapes the designers have in mind and the way they have to decompose them in a succession of modeling steps. This paper proposes a new declarative modeling approach to design industrial shapes allowing the designers to interact with a CAD software at a more conceptual level. The designers enter a high-level description of the expected shapes that is then transformed through scripts into traditional CAD operators successively called to create the shapes. Compared to the traditional feature-based approaches, our declarative modeling approach is closer to the way designers think. It saves time while keeping all the advantages of existing efficient CAD modelers. This new approach aims at quickly creating drafts rather than final shapes. Those drafts can then be modified using classical CAD software in which our new approach is fully embedded. This approach is a first step towards a declarative CAD modeler.
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