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Monday, September 12th, 2011

STAR Constellations

STAR Constellations: Sensors for a Tangible Ambient Research

 

INTRODUCTION:::::::

STAR constellations has emerged from an interest in materials. Projecting toward the not-so-distant year 2048, this project situates itself in a future in which the design of space can be approached through the design of material specifications. Through the design of a new material building block, STAR constellations seeks to create communication channels that cross physical, spatial, and cognitive boundaries, generating a multitude of ways to store and access information, and producing spaces that are alive and capable of adapting to environmental change.

The RPI Center for Biotechnology and Interdisciplinary Studies acts as the prototypical site and program for the project. The collaborative nature of the Biotechnology Center serves as a testing grounds for a material intervention the seeks to foster communication between disciplines, bridge language barriers between different libraries of content, and reassess how ‘waste’ within a research environment can become a vital resource.

The realization of this material intervention takes the form of STARs. While STARs forward an object oriented research by allowing data to be filtered and manipulated through researchers’ hands-on interaction, their true power is in their communication properties. Connected and contributing to a vast archive of biotechnology research, STARs absorb and cross-reference many different information structures to allow unlike data types to speak to each other. Opening conversations between these data types allows unforeseen relationships to emerge and act as a catalyst for future discoveries.

While working together to collect information and data mine resources effectively requires the STARs to have refined internal communication abilities, equally important is their ability to communicate with researchers in the Biotechnology Center. To address this issue, STARs rely on formation, alternately assembling temporary furniture for scientists to use, ornaments for scientists view, and tools for scientists to manipulate. To test the broad range of potentials of such a material, the STAR bodies were designed and tested in three scenarios.

 

 

Download Final Boards

 

CONCLUSIONS:::::::

The scenarios explored through the STAR constellations are three of many possible futures that could emerge from a material intervention that incorporates near human intelligence. For this reason the specific configurations of each scenario fades in importance in comparison to the questions they ask about the role of the designer in spaces formed by living and intelligent materials.

My early research into emerging material technologies as well as the process of self-assembly revealed that the current vision of the potential of material engineering on the nanoscale positions the designer to have infinitely higher degrees of accuracy over the resulting space. Testing the STAR constellations against possible scenarios has led me to believe that designers are facing a very different but much more powerful range of potential than what has been, up until this point, imagined. To some, STARs degrade the role of the designer because the type of innate intelligence I am proposing to be built into materials actually requires designers to willingly forfeit control over specific formalisms and geometries. However, as the scenarios illustrate, the highest level of performance in the research spaces emerges from the internal logics of the STARs rather than from their controlled use by the scientists strictly as a tangible interface.

Engineering materials on the nanoscale shifts the design process away from aesthetic concerns by distributing our own human intelligence through a material matrix. The design of the STAR demonstrates that loosening our grip on specific spatial configurations allows issues of performance, social connectivity, and sustainability to be the primary concerns. The communication properties and native behaviors that are most critical in the Biotechnology Center are designed into the fabric of the STAR. The result is a highly adaptive and flexible research environment that intentionally shifts the way researchers work in and occupy space in order to meet the performance criteria designed into their genetic structure. The STARs predict a future in which materials rival the intelligence of the people who designed them.


Friday, April 22nd, 2011

Silent Swarm

This silent swarm of stylized crickets is downloading data from Internet and catalogue searches being undertaken by the public at the State Library Queensland. These searches are being displayed on the screen on their backs. Each cricket downloads the searches and communicates this information with other crickets. Commonly found searches spread like a meme through the swarm.

In this work memes replace the crickets’ song, washing like a wave through the swarm and changing on the whim of Internet users. When one cricket begins calling others, the swarm may respond to produce emergent patterns of text. When traffic is slow or of now interest to the crickets, they display onomatopoeia.

 

 

http://kuuki.com.au/suzumushi

 

 


Tuesday, March 29th, 2011

Clothes and air Pollution

NYU Graduate Students create cloths that signal air pollution

daily news here


Friday, November 19th, 2010

for the book


Wednesday, October 6th, 2010

Migratory Patterns

http://www.forbes.com/2010/06/04/migration-moving-wealthy-interactive-counties-map.html?preload=39099


Monday, October 4th, 2010

Microsoft Imagining the Future

Office Productivity Future Vision by Microsoft 2018


Friday, October 1st, 2010

an interview w Sandy Stone

Here


Friday, October 1st, 2010

Education Statistics

http://nces.ed.gov/

http://nces.ed.gov/surveys/sdds/ed/index.asp



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