The Windlicht Project Uses Green LED Beams to Link Win Turbine Blades
Rahul Kalvapalle — March 17, 2016 — Eco
References: studioroosegaarde.net & gizmag
Studio Roosegarge has put together a spectacularly beautiful project, dubbed Windlicht, that uses green LED beams to link the blades of wind turbines.
The project uses special software that blends data from sensors and cameras using LED aiming and stabilization technology, ensuring that beams remain targeted on blades as they rotate. The end result is the appearance of gorgeous green beams that act as skipping ropes being spun around by the turbines.
In addition to looking beautiful, the Windlicht project aims to tackle a central problem -- that everybody says that they want more green energy but few are willing to put up with the infrastructure sitting in their backyard. The installation proves that it is indeed possible to beautify energy infrastructure projects so that they do not become eyesores.
The project uses special software that blends data from sensors and cameras using LED aiming and stabilization technology, ensuring that beams remain targeted on blades as they rotate. The end result is the appearance of gorgeous green beams that act as skipping ropes being spun around by the turbines.
In addition to looking beautiful, the Windlicht project aims to tackle a central problem -- that everybody says that they want more green energy but few are willing to put up with the infrastructure sitting in their backyard. The installation proves that it is indeed possible to beautify energy infrastructure projects so that they do not become eyesores.
Trend Themes
1. Green Energy Aesthetics - The use of LED beams to create visually stunning wind turbines opens up opportunities for further development of visually appealing renewable energy infrastructure projects.
2. Sensor and Camera Integration - The Windlicht Project's use of sensor and camera integration to track the blades of wind turbines can be applied to other innovations in the renewable energy industry, such as solar panel tracking systems.
3. Stabilization Technology Advancements - The Windlicht Project's use of advanced stabilization technology for the green LED beams offers potential applications in the fields of telecommunications, image stabilization, and more.
Industry Implications
1. Renewable Energy - The Windlicht Project highlights the potential for integrating visually stunning design elements into renewable energy infrastructure projects.
2. Sensor Technology - The project's use of sensor technology to track the blades of wind turbines opens up opportunities for further innovations in the renewable energy industry and beyond.
3. LED Lighting - The Windlicht Project's use of LED beams to create a visually appealing renewable energy infrastructure can expand the applications for advanced LED lighting technology.
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