the-technology – Tech Today w/ Ken May

Origami-like soft robot can lift 1000 times its weight

Soft robotics allow machines to move in ways which mimic living organisms, but increased flexibility usually means reduced strength , which limits its use. Now, scientists at MIT CSAIL & Harvard have developed origami-like artificial muscles that add much-needed strength to soft robots, allowing them to lift objects as much as 1, 000 times their own weight using only water or air pressure. One 2.6 gram muscle is able to lift a 3 kilogram object, which is the same as a duck lifting a car. The artificial muscles are made up of a plastic inner skeleton surrounded by air or water inside a sealed bag — the “skin”. Applying a vacuum to the inside of the bag initiates the muscle’s movement, creating tension that drives the motion. No power source or human input is needed to direct the muscle, as it’s guided purely by the composition of the skeleton . In experiments, the researchers created muscles that can lift a flower off the ground, twist into a coil and contract down to 10 percent of their original size. They even made a muscle out of a water-soluble polymer, which means the technology could be used in natural setting with minimal environmental impact . Other potential applications include deep sea research, minimally invasive surgery and transformable architecture. The muscles are scalable — the team built them at sizes ranging from a few millimeters up to a meter — and cheap to produce. A single muscle can be made in under ten minutes for less than a dollar. Even the research team itself was surprised by how effective the technology is. “We were very surprised by how strong the muscles were. We expected they’d have a higher maximum functional weight than ordinary soft robots, but we didn’t expect a thousand-fold increase, ” said CSAIL director Daniela Rus. “It’s like giving these robots superpowers .”

More progress on carbon nanotube processors: a 2.8GHz ring oscillator

Enlarge (credit: NASA ) Back in 2012, I had the pleasure of visiting the IBM Watson research center. Among the people I talked with was George Tulevski , who was working on developing carbon nanotubes as a possible replacement for silicon in some critical parts of transistors. IBM likes to think about developing technology with about a 10-year time window, which puts us about halfway to when the company might expect to be making nanotube-based hardware. So, how’s it going? This week, there was a bit of a progress report published in Nature Nanotechnology (which included Tulevski as one of its authors). In it, IBM researchers describe how they’re now able to put together test hardware that pushes a carbon nanotube-based processor up to 2.8GHz. It’s not an especially useful processor, but the methods used for assembling it show that some (but not all) of the technology needed to commercialize nanotube-based hardware is nearly ready. Semiconducting hurdles The story of putting together a carbon nanotube processor is largely one of overcoming hurdles. You wouldn’t necessarily expect that; given that the nanotubes can be naturally semiconducting, they’d seem like a natural fit for existing processor technology. But it’s a real challenge to get the right nanotubes in the right place and play nicely with the rest of the processor. In fact, it’s a series of challenges. Read 11 remaining paragraphs | Comments

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More progress on carbon nanotube processors: a 2.8GHz ring oscillator

Researchers break efficiency record for consumer-friendly solar panels

Turning sunlight into power is a surprisingly tricky thing. Experiments in academia have created solar arrays that can capture up to 40-percent of the sun’s energy and convert it to electricity, but consumer cells are notably less efficient. At best, silicon-based technology has a theoretical 29-percent efficiency ceiling — meaning any consumer panel in the low 20s is doing pretty well. Still, we’re inching ever closer to the technology’s limit. Researchers at Kaneko corp recently announced that they’ve developed a silicon solar cell with a record-breaking 26.3 percent efficiency rating. The score is only just barely higher than the previous record of 25.6, but that 0.7 percent gain is no easy feat. Researchers had to analyze what factors in current cell design was keeping the technology from reaching its theoretical limits. The group decided that reducing optical loss was the best path forward, and moved low-resistance electrodes to the rear of the cell to increase the amount of photons that could be captured. That’s a lot of technical jargon, sure — but the big win here isn’t just that the cell is more efficient, it’s that the more productive silicon cell was produced using the same kind of production process used for consumer sells. In other words, this isn’t just an experiment, it’s something we might actually see on the market soon. Via: Ars Technica Source: Nature Energy

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Researchers break efficiency record for consumer-friendly solar panels

Verizon will test 5G wireless in 11 cities by mid-2017

Verizon isn’t going to let AT&T’s 5G plans go unanswered. The carrier (and our corporate overlord) says it will pilot the gigabit-class wireless in 11 cities by the middle of 2017, including major urban hubs like Atlanta, Dallas, Denver, Houston, Miami, Seattle and Washington, DC. These will be “pre-commercial services” offered to specific customers, so don’t expect to try extra-fast cellular data in your neighborhood. Instead, this is about investigating “scenarios and use cases” before Verizon is ready to ask for money. It’s not certain when you’ll see honest-to-goodness paid service, although Verizon has been aiming for sometime in 2017. However, any widespread deployment is likely to be contingent on a formal 5G standard, which doesn’t exist yet — and that’s not including the necessary hardware . You might not want to get too excited, then. While 5G may well usher in an era where your smartphone data speeds are as fast as a fiber optic line, the technology is still very much in the early stages. Source: Verizon

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Verizon will test 5G wireless in 11 cities by mid-2017

Cryptocurrency raider takes $60 million in digital cash

A cryptocurrency is only as reliable as the technology that keeps it running, and Ethereum is learning this the hard way. An attacker has taken an estimated $60 million in Ethereum’s digital money (Ether) by exploiting vulnerabilities in the Decentralized Autonomous Organization, an investment collective. The raider took advantage of a “recursive call” flaw in the DAO’s code-based smart contracts, which administer the funds, to scoop up Ether many times in a single pass. Ethereum’s Vitalik Buterin (pictured above) has revealed a planned software fork that would prevent the intruder from using the ill-gotten goods, but there are still plenty of headaches in store for both contract creators and investors. Contract makers will have to take extra care to avoid the flaw and limit the value of their contracts so that a bad actor doesn’t make off with a huge sum of cash. Buterin says that Ethereum itself is safe — miners can carry on, and users should “sit tight and remain calm” while they wait to trade again. Still, it’s easy to imagine everyone being nervous. The kicker? People were convinced that the bug posed no risk to DAO funds just a few days prior. Clearly, that wasn’t true. While the invader didn’t get away scot-free, the breach has caused a lot of chaos. And while one person’s claims that they legitimately took the funds is sketchy, Bloomberg notes that the code defining the smart contracts may have explicitly allowed this attack even if that’s not what the DAO wanted. This may not be so much a hack as exploitation of poorly-defined terms, and there may not be a legal recourse. In short: basing an investment framework around code instead of human-made contracts may have been too optimistic. Via: Coindesk , Bloomberg , The Verge Source: Vitalik Buterin (Reddit) , Etherscan , Ethereum

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Cryptocurrency raider takes $60 million in digital cash