Parametric Biodigital Inspired Tessellation for Mass Customized Digital Fabrication

IF 0.1 0 ARCHITECTURE
A. Riekstins
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引用次数: 0

Abstract

This paper researches the limits of repeating patterns that tesselate in a more artistic way for architectural application that is not limited to creating regular triangular, rectangular or hexagonal pieces with decorative purpose and sole material usage. Digitally parametric modeling and CAD-CAM paradigm with input-output sensorial microcontrollers, have brought the possibility to explore the limits of mixing up manual and automatized fabrication techniques with the infinite geometrical potential, implementing AI features. The applied research is being materialized into a mixed technique grayscale concrete floor-tiling prototype featuring concepts of passive flame-imitated indirect red light to enhance health benefits (Arduino microcontroller operated) and zero-waste manufacturing by carrying out CNC milling positive cast to a rubber mold to create an exact amount of geometrically matching pieces needed for the design.
受生物数字启发的参数化镶嵌,用于大规模定制的数字制造
本文研究了以更艺术的方式镶嵌在建筑应用中的重复图案的局限性,这种重复图案不局限于创造具有装饰目的和唯一材料用途的规则三角形、矩形或六边形。数字参数建模和带有输入输出传感微控制器的CAD-CAM范式,为探索将手动和自动化制造技术与无限几何潜力相结合的极限带来了可能性,从而实现了人工智能功能。这项应用研究正在具体化为一种混合技术的灰度混凝土地砖原型,其特点是被动火焰模拟间接红光的概念,以提高健康效益(Arduino微控制器操作)和零浪费制造,通过对橡胶模具进行数控铣削正模铸造,创造出所需的精确数量的几何匹配件设计
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来源期刊
CiteScore
1.00
自引率
25.00%
发文量
3
期刊介绍: Information not localized
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