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Blog – Page 11267

In Brief.

  • A task that would take one robot years to complete could be done in just a few weeks if multiple robots are allowed to communicate with one another.
  • As algorithms and technology advances, a robot cloud could help us best utilize bots within our daily lives.

Robots, for all their helpfulness in performing tasks that we would rather not do (usually because those tasks are dangerous or boring), first need to be coded in order to do the work. These specific sets of commands tell the machines what exactly they need to do and define how to do it.

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Self-driving car testing in California is becoming a badge of progress for companies working in the space. Only 17 companies in total have the honor, including two just added to the list: Wheego Electric Cars, and Valeo North America.

The Wall Street Journal reports that both these new companies now have approval to run tests with a single vehicle each, and four drivers per team. That might not sound like much, but it’s a foot in the door, and membership in the club is itself somewhat testament to how much the companies have already accomplished, since the other members include major carmakers like Tesla, Cruise (which got its license before being acquired by GM), promising startup Drive.ai, and Baidu, to name a few.

The new members are interesting additions: Wheego is an electric carmaker which got its start taking Chinese-Built cars, outfitting them with battery’s and electric motors in the U.S. and putting them on the road. The company now says it builds electric vehicles designed “for a global market,” and focuses on the benefits of connected tech in making vehicles aware of their surroundings.

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Neural Nanonics here we come: “Could lead to future autonomous, fully implantable neuroprosthetic devices”

Memristor chip (credit: University of Southampton)

A bio-inspired electronic device called a memristor could allow for real-time processing of neuronal signals (spiking events), new research led by the University of Southampton has demonstrated.

The research could lead to using multi-electrode array implants for detecting spikes in the brain’s electrical signals from more than 1,000 recording channels to help treat neurological conditions, without requiring expensive, high-bandwidth, bulky systems for processing data. The research could lead to future autonomous, fully implantable neuroprosthetic devices.

Continue reading “Synapse-like memristor-based electronic device detects brain spikes in real time” | >

Two years ago, Studio Roosegaarde created a glow-in-the-dark bike path in Eindhoven, Netherlands, helping to light the route in a exciting way. Inspired by that, a materials technology center in Lidzbark Warminski, Poland, has followed suit, with equally dazzling results.

The materials tech center, TPA Gesellschaft für Qualitätssicherung und Innovation (TPAQI), tells New Atlas that it first drew attention to the Eindhoven bike path at a local road forum event. The underlying concept was floated as a potential option for creating something that would reflect the beauty of the surrounding landscape.

Work began about a year ago, with lab tests into how the glowing effect would be created. A variety of different materials and colors were tested, with the aim of creating something that would both look great and that would increase safety for cyclists and pedestrians.

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Verizon has joined the likes of Facebook, Google and fellow telecommunications giant AT&T in exploring the potential of internet-connected unmanned aircraft. While its vision involves expanding 4G coverage across the US, it has an immediate focus on shoring up communications for first responders in emergency situations, and recently carried out trials to that effect.

Verizon has dubbed the initiative Airborne LTE Operations (ALO) and says it has actually been in the pipeline for around two years. The company has been working to integrate internet connectivity into unmanned aerial vehicles and hook them up to its 4G network, daisy chaining coverage and beaming it down to unconnected areas in the process. This is similar to how Facebook hopes its Aquila drones will work.

Verizon recently teamed up with company American Aerospace Technologies to see how using drones as gliding cell towers could have an impact in disaster relief scenarios. In a simulated mission in New Jersey, the team set a drone with a 17-foot (5.2 m) wingspan in flight to put the onboard technologies through their paces.

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Since the arrival of flat-screen TVs, there’s not been a whole lot to get excited about in the world of televisions — how many ways can you improve on a big slab of glass, after all? Well, how about by making it almost invisible when you’re not using it?

That’s the thinking behind a new prototype from Panasonic that’s just been shown off at the CEATEC electronics expo in Japan this week. When switched on, it’s just like a normal TV. When switched off, it’s as transparent as glass, meaning you can see the wall or shelving behind.

Panasonic describes it as the “future of display screens” — although as you might expect, the company’s staying tight-lipped about the technology behind its transparent TV, just in case its competitors have something similar in mind.

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Just last month, physicists made the best case yet for why time crystals — hypothetical structures that have movement without energy — could technically exist as physical objects.

And now, four years after they were first proposed, scientists have managed to add a fourth dimension — the movement of time — to a crystal for the first time, giving it the ability to act as a kind of perpetual ‘time-keeper’.

First proposed by Nobel-Prize winning theoretical physicist Frank Wilczek back in 2012, time crystals are hypothetical structures that appear to have movement even at their lowest energy state, known as a ground state.

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Scientists have succeeded in creating the world’s smallest transistor, producing a switch with a working 1-nanometre gate. If you want to know how incredibly tiny that is, a human hair is around 80,000 to 100,000 nanometres wide.

Unlike regular transistors, the researchers’ new prototype isn’t made out of silicon – and the smaller size means we can still improve performance in integrated circuits by populating them with greater amounts of incredibly small components.

And it could help us keep Moore’s Law alive too.

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