Results 1 - 4 of 4
Project Persons Year Tags
Capacity for (urban eden, human error) Allison Kudlla 2010 architecture, biology, seeds.moss, art, patterns, plotting, urban, cells, growth, organismscomplexity, emergence, computers
This system uses a computer controlled four-axis positioning table to “print” intricate bio-architectural constructions out of moss and seeds. Suspended in a clear gel growth medium, the moss continues to grow and the seeds sprout. The algorithmically-generated patterns drawn by the system are based on the Eden growth model and leverage mathematical representations of both urban growth and cellular growth, thereby connecting the concept of city with the concept of the organism. This project is working to make concrete the idea of dynamic and fluid computer space altering the expression and formation of a living and growing biological material, via its collaboration with an engineering mechanism.
CyberGarden v4 AltN Research+Design (EcoLogicStudio) 2011 antibiotics, digital, model, robotics, ecosystem, environment, bacteria, gardening, sensors, electronic medium, biology, information, project
CyberGarden is an ongoing research project developed by Ecologic Studio. This project represents the 4th iteration and exists as a multilayered, intelligent system that passes information between these layers via material, electronic and biological information. It utilizes a network of radiation sensors and connected to custom designed and programmed robotic arms and a parametric digital model. The physical prototype and digital model engage in a generative dialogue and co-evolve over the course of each exhibition. The petri dish components are made of translucent perspex and when added to the physical model cause a change in the lighting filed. This in turn will affect the digital plan and triggers the emergence of other gardening components to be designed, cut and added on.
Natural Resilience Catherine Verpoort (Textile Futures) 2012 project, design, resilience, biology, textiles, materials
The project is inspired by nature’s ability to process and conquer even artificial materials and surfaces in order to sustain and enforce itself. Nature’s immense strength and power is accompanied by an aesthetic that indicates a peaceful progression of time. The emergence of moss, fungi and plants, as well as their disappearing, brings life into the inanimate materials and objects. The project explores how we can design materials that respond to nature and its resilience.
Open Columns Omar Khan et al. ( University at Buffalo) architecture, structures, responsive environment, CO2, self-organization, systems, complexity, emergence, adaptability, resilience, nonlinearity, materials, technology, augmented materials
Open Columns is a system of nonstructural columns, made from composite urethane elastomers and can be deployed in a variety of patterns to reconfigure the space beneath them. The system is a mutable architecture that responds to its inhabitants by changing its shape based upon the carbon dioxide (CO2) content in the air. It is capable of learning about its environment by directly acting within it. The genesis of this research and design comes out of an interest in self-organizing systems, which exhibit phenomena of nonlinearity, instability and adaptability. Open Columns is part of a research project exploring computationally inspired and augmented materials for responsive architecture.