3D printing is becoming a way for manufacturing goods and can greatly boost Africa's economic production and lower production costs.
Rudolf Kabutz's insight:
Latest 3D technology being used in Africa? Now already Africans are using mobile phone technology in most innovative ways to overcome challenges and create new opportunities - what would it take for Africans to use 3D printers in a similar way?
The Raspberry Pi already makes a pretty great computer for a webcam, but if you want to actually control what that Pi is looking at, you'll need actual movement. Make has a guide to make the Pi control a camera with ...
Augmented-Reality Glasses: Startup's Vision Could Change Gaming TechNewsDaily Technical Illusions' Cast AR glasses, shown for the first time at Maker Faire —a festival that highlights invention, creativity and resourcefulness — in the Bay Area this...
New robot RHex can jump, swim, and climb stairs Geek (blog) With Boston Dymanics' Sand Flea already hopping its way across the battlefields of Afghanistan, you might think the burgeoning jumping robot industry would be resting on its laurels,...
For the tens of thousands of migrants flooding into Europe, smartphone maps, global positioning apps, social media and WhatsApp have become essential tools.
Rudolf Kabutz's insight:
Relationships are most precious to us as humans, especially when everything else is lost. The flood of refugees into Europe is using smartphones not only to orient themselves, but especially to keep in touch with loved ones. The help provided nowadays is also very different than in previous years: United Nations High Commissioner for Refugees has distributed 33,000 SIM cards to Syrian refugees in Jordan and 85,704 solar lanterns that can also be used to charge cellphones!
Young learners have the opportunity to explore recycling challenges in the 2015 robotics competition of the FIRST LEGO League. Innovation, teamwork, fun and gracious professionalism are some of the key words involved.
The field of soft robotics has attracted a rush of attention in the last year. Down the road at Harvard, multiple groups are working on soft robotic hands, jumping legs, exosuits, and quadrupeds that can do the limbo. At Worcester Polytechnic Institute's Soft Robotics Lab, researchers are building a snake. In San Francisco, a startup called Otherlab is buildinginflatable robots that can shake hands, walk, and carry riders. In Italy, a group of researchers built a robotic tentacle modeled after an octopus.
Before the 1970s, car companies made cars safer by making them larger and heavier. Then along came the airbag: a lightweight safety device that folded up invisibly into the vehicle until it sensed a crash. Similar revolutions took place with body armor, bridges, and contact lenses, and these researchers believe something similar is happening with robots.
"It’s not a part of conventional robotics technologies," says Fumiya Iida, a professor of bio-inspired robotics at the Swiss Federal Institute of Technology-Zurich and a member of the IEEE committee on soft robotics. "They have to think completely differently, use different materials, different energy sources. Definitely this is the way we should go in the long run." One of the most impressive rigid robots in the world right now is Boston Dynamics’ 300-pound humanoid Atlas. If Atlas wants to pick up a ball, it needs to sense and compute the precise distance between its digits and the ball and figure out exactly where to place its hand and how much pressure to apply.
Robots like Atlas "are doing a lot of thinking," says Barry Trimmer, PhD, a professor at Tufts and the editor of a new journal, Soft Robotics, which launched last month. "There’s a lot of hesitancy. ‘Where do I put my foot next?’ Animals just don't do that. We need to get away from the idea that you have to control every variable."
By contrast, Harvard’s starfish-shaped soft gripper only needs to be told to inflate. As it’s pumped full of air, it conforms to the shape of an object until its "fingers" have enough pressure to lift it. Another example would be a human picking up a glass of water. We don’t have to compute the exact size and shape of the glass with our brains; our hand adapts to the object. Similarly, Bubbles doesn’t calculate the full length of its movement.
There are technological challenges as well. In addition to air and fluid pressure actuators, soft roboticists are experimenting with dielectric elastomers, elastic materials that expand and contract in response to electric voltage; shape-memory alloys, metal alloys that can be programmed to change shape at certain temperatures; and springs that respond to light. These approaches are still rudimentary, as are the control systems that operate the robots. In the case of many of Harvard’s soft robots, it’s simply a syringe of air attached to a tube.
The field is so new, however, that no possibilities have yet been ruled out. Soft robotics technologies could theoretically be used in a wearable pair of human wings.More practically, soft robots could easily pack eggs or pick fruit — traditional hard robots, equipped with superhuman grips, are more likely to break yolks and inadvertently make applesauce. A mass of wormlike "meshworm" robots could be filled with water and dropped over a disaster area, where they would crawl to survivors. A soft robotic sleeve could be worn to eliminate tremors or supplement strength lost with age. Soft robots could be used in space exploration, where weight is hugely important; in prosthetics, where they would provide comfort and lifelikeness; in the home, where they can help out around the house without trampling the dog; and in surgical robots, where operators have inspired a few lawsuits after puncturing patients’ insides.
Makes you wonder how on earth earth such misguided studies can even be commissioned. Also makes you curious about who is really behind the funding of research that misleads readers into believing that poor kids don’t need the same tools their wealthier peers use for success.
New robot could be hospitals' answer to killing super bacteria WWL NEW ORLEANS — Hospitals waging a ferocious battle against deadly, drug resistant bacteria might have found a solution in a robot, one that pulses ultraviolet light one-and-a-half...
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