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A1 DESIGN FUTURING Zero/Fold Screen The Zero/Fold Screen is designed to be a light-filtering screen for Kasian Gallery, University of Calgary, Canada. Instead of subordinating the material sheet size to the end of the design process and resulting in inevitable waste, the project starts from the basic material dimensions, generating a series of components that will minimize material waste during CNC cutting while creating un undulating screen in the gallery. This features the value of design futuring, which helps to retard the extravagant waste and defuturing development.
PEEC Visitor Activity Centre What is notable about the design is the use of local and
recycled materials, which has been maximised to curtail the embodied energy of the building. The undulating north facade is clad with shingles manufactured from the discarded tiers, which were reclaimed from the river, the park grounds and other local sources. This enhances the reuse of resources and removes waste from the river. Also, compared to other solutions, this design features lower embodied energy, transportation costs and maintenance expenditure. This applauds the value of design futuring, which aims to go against the accelerating defuturing condition of unsustainability and waste.
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A2 COMPUTATIONAL DESIGN
ICD/ITKE Research Pavilion In
Shellstar Pavilion The Shellstar Pavilion, which is a temporary structure for an art and design festival in Hong Kong, can be an
example of computational design. The computer soft wares including rhino, grasshopper and kangaroo are utilized form the initial design stage in order to maximize the spatial performance while minimizing the structural and material demands. The form emerged out of a digital form-finding process and self-organizes into the catenary-like thrust surfaces that are aligned with the structural vectors and allow for minimal structural depth.
Various Computational Analysis
the initial design stage, the geometry and main fiber bundle locations are produced by a computational form finding method, integrating fabrication constraints and structural simulation in the developed design stage afterwards. Furthermore, a prototypical robotic fabrication process was developed, leading to a completely digital construction process. Therefore, all design processes have been integrated, which applauds the virtue of computational design.
Robotic Fabrication Process
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