This paper deals with geometric update strategies of cobogós, aiming to expand its energy efficiency based on material computation, a design approach that seeks to achieve greater architectural performance through the investigation of material properties, comprising four aspects that structure the paper: materiality, material structure, material performance and materialisation. Analysis in ceramic, the most common material in the manufacturing of cobogós, showed voronoi microstructure geometry in the material. Incorporating this logic to the development of a new geometry of cobogó results a slight increase of its thermal performance comparing with commercial cobogós.
xxii congresso da sociedade iberoamericana de gráfica digital 22th conference of the iberoamerican society of digital graphics 07|08|09|novembro|2018 iau usp | são carlos | sp br
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In this paper, we review the concept of science parks and their culmination as knowledge-based urban developments (KBUDs). Next, we describe the upgrading of second-generation science parks in urban fringes to knowledge territories based on the quintuple helix innovation model. This research aims to study planning and design tools that can be used to foster serendipity, vitality and high-quality living environments in otherwise sterile landscapes from a human point of view, as is generally the case in second-generation science parks. In this context, we discuss how city information modelling (CIM) capabilities can be extended with three placemaking aspects that are important to this type of development: social negotiation, urban vitality and legibility. Finally, we present the International Hub for Sustainable Development (HIDS), which is currently being planned in Campinas, Brazil, and some examples of the use of CIM in this project. We conclude that CIM can be used to increase public engagement in participatory processes by facilitating communication between stakeholders. In addition, it improves data collection in these processes and supports decision‑making.
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