Our Friend from Autonomous-Vasko is showing how to unpack and assemble battery packs. If you visit his webpage, you can find more for his Project and planned Trip in Spain. Used batteries from laptops 18650 become to live their second life. New life in service of humanity and environment. Expect more interesting projects from Autonomous soon. His inventions promised decentralized and open source existence, outside of the modern social model.
It’s bad enough to be on the sea during a storm, with the ship rocking in the high winds and rolling with the tempest-tossed waves. But it could always be worse. Rogue waves are twice as large as the surrounding waves, which in stormy seas can be absolutely massive. Seafarers have reported waves like this over 110 feet tall, large enough to swamp a ship.
Rogue waves are unpredictable, coming seemingly out of nowhere. Until now, the only warnings that a Continue reading →
While it’s just an experiment the company is showing off, Coca-Cola is nevertheless toying with the idea of turning 12-packs of soda into pretty legit VR headsets. While a lot of assembly is required, it’s one of the better ways we’ve seen VR find its way to the masses. Even if you don’t drink soda, someone you know that does would probably give you their empty case.
A new version of Atlas, designed to operate outdoors and inside buildings. It is specialized for mobile manipulation. It is electrically powered and hydraulically actuated.
It uses sensors in its body and legs to balance and LIDAR and stereo sensors in its head to avoid obstacles, assess the terrain, help with navigation and manipulate objects. This version of Atlas is about 5′ 9″ tall (about a head shorter than the DRC Atlas) and weighs 180 lbs. In the next video Continue reading →
A team at the Wyss Institute and Harvard SEAS has developed a new micro-scale printing method to create transformable objects. These “4D-printed” objects go a step beyond 3D printing to incorporate a fourth dimension–time.
The method was inspired by the way plants change shape over time in response to environmental stimuli. This orchid-shaped structure is printed with a hydro gel composite ink containing aligned cellulose fibrils, which enable an-isotropic swelling. A proprietary mathematical model developed by the team precisely predicts how the fibrils will swell in water. Continue reading →