This Autonomous Flying Car will be ready to take to the skies by 2018.
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Autonomous Flying Car
Posted in robotics/AI, transportation
Continuous automatic sampling during production aims to keep Danish biotechnology at the forefront. The equipment, and the company behind it, are the result of fruitful collaboration between businesses and universities.
Biotech companies can now take samples from their production as often as they wish, untouched by human hands.
This is all thanks to new equipment developed by start-up company Biomatics Technology. Both the company and product were nurtured in the Biopro network, which involves a number of Danish biotech companies and DTU and the University of Copenhagen.
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She Prints Her Clothes!
Posted in education
Danit is the coolest!
9 months of hard work and a below average grade at school didn’t stop her from taking the world by storm with her 3D clothing line!
Follow her story at: Danit Peleg!
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Tissue Nano-Transfection
Posted in nanotechnology
Researchers have found that the topological material trisodium bismuthide (Na3Bi) can be manufactured to be as ‘electronically smooth’ as the highest-quality graphene-based alternative, while maintaining graphene’s high electron mobility.
Na3Bi is a Topological Dirac Semimetal (TDS), considered a 3D equivalent of graphene in that it shows the same extraordinarily high electron mobility.
In graphene, as in a TDS, electrons move at constant velocity, independent of their energy.
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DARPA Subterranean Challenge
Posted in biotech/medical, military
Underground settings are becoming increasingly relevant to global security and safety. Rising populations and urbanization are requiring military and civilian first responders to perform their duties below ground in human-made tunnels, underground urban spaces, and natural cave networks. Recognizing that innovative, enhanced technologies could accelerate development of critical lifesaving capabilities, DARPA today announced its newest Grand Challenge: the DARPA Subterranean Challenge, or SubT for short.
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Researchers have developed an easy-to-build camera that produces 3D images from a single 2D image without any lenses. In an initial application of the technology, the researchers plan to use the new camera, which they call DiffuserCam, to watch microscopic neuron activity in living mice without a microscope. Ultimately, it could prove useful for a wide range of applications involving 3D capture.
The camera is compact and inexpensive to construct because it consists of only a diffuser — essentially a bumpy piece of plastic — placed on top of an image sensor. Although the hardware is simple, the software it uses to reconstruct high resolution 3D images is very complex.
“The DiffuserCam can, in a single shot, capture 3D information in a large volume with high resolution,” said the research team leader Laura Waller, University of California, Berkeley. “We think the camera could be useful for self-driving cars, where the 3D information can offer a sense of scale, or it could be used with machine learning algorithms to perform face detection, track people or automatically classify objects.”
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