INTERNATIONAL CAE CONFERENCE AND EXHIBITION
2017, 6 - 7 November
Reviewing the Multiobjective Optimization Package of modeFrontier in Energy Sector Amir Mosavi Norwegian University of Science and Technology, Department of Computer Science, 7491 Trondheim, Norway Institute of Structural Mechanics, Bauhaus Universität-Weimar, MarienstraĂ&#x;e 15, 99423 Weimar, Germany Email: amir.mosavi@uni-weimar.de Web: https://www.researchgate.net/profile/Amir_Mosavi2
Summary The multiobjective optimization (MOO) software package of modeFrontier has recently become popular within industries, academics and research communities. Today, universities as well as research institutes are using modeFrontier optimization toolboxes for teaching and research proposes around the world. One of the reason behind the popularity of the package, is the way it utilizes the available resources in an efficient and integrated manner and providing multidimensional post-processing tools. The user-friendly design optimization environment of modeFrontier integrates various optimization methods with the major computer aided engineering codes and commercial numerical analysis tools. Among the wide range of applications of modeFrontier, the energy sector, particularly, has been highly benefiting from the advancements in design optimization. This article presents the state of the art survey of the novel applications of modeFrontier in this realm.
Keywords Energy, Multiobjective Optimization, Optimal design, modeFrontier
Introduction The multiobjective optimization (MOO) software package of modeFrontier is a commercial software package which provides a user-friendly environment for innovative design optimization. The package was developed by ESTECO, which is an independent technology provider software solutions located in Italy [1]. The package provides an advanced simulation-driven design process with powerful workflows, innovative algorithms and user-friendly post-processing for advanced statistical analysis, data visualization and decision making [2]. The optimization is performed with modular and profile based access, enabling the automation of the design simulation process and, further through facilitating the advanced analytical decision. The modeFrontier includes two modules of modeSpace and modeProcess for managing the data space, process, and optimization aspects and further dependent
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