3GBX_TESTA_XLAB_Resident Chroma

Today materials are scientifically engineered to serve demanding purposes in a profit and performance oriented world. The expertise of manufacturers grows rapidly to maximize efficiency and push material limits.

The consequence is an illusion of humans mastering nature.

The gap between human perception and physical behavior is an enormous issue today. We rely on artificial intelligence executing codes with high precision in a physical environment. Materials with specific properties become problem solvers rather than intelligent variables in fabrication.

Our project suggests a new interface to bridge the gap between technique and technology, design and application, most importantly virtual and real. A global color control model builds up the three dimensional data base. This is able to merge multiple parameters breaking out of the singularity of conventional information mappings.

Color as input/output display becomes an analysis tool which redefines RGB as a calculator opening up color being a generator. Simple procedures are merged by color mapping to create new conditions without losing information. In short, blue and red generate purple. We are building up a toolkit of materials with a great variety of attributes, such as the shaping capacities of plastics, the tension resistance of fabrics, flex-abilities of fibers, and structural properties of concrete – giving the user control by a constant sensor feedback loop by infrared cameras, laser measuring, conductive yarn and pressure sensors. As a consequence we are breaking out of applications being limited to materials and architectural functions being reduced to object.

Material intelligence is redefined as a design tool in a playful environment – displayed and combined in the color control model “Resident Chroma”.





颜色作为输入/输出的显示,成为一种分析工具,可以重新定义RGB如同一个计算机将颜色开发为一个创造者。简单的操作步骤被颜色的关联所合并在一起,从而创造出新的条件在没有丢失信息的情况下。简而言之,颜色和红色可以产生紫色。我们建立一套材料的工具箱包括很多非常好的属性,如塑料潜在的造型性,织物的拉升阻力性,纤维的自由性,以及混凝土的结构性 —— 给使用者以一套由不间断的传输感应循环通过红外线摄像头,激光测量,传导的纺线以及压力感应器来控制。因此,在结果上,我们突破了应用性被材料和建筑功能形成物体的局限。


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