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Archive for the ‘electronics’ category: Page 92

Jan 3, 2016

LG made an 18-inch display you can roll up like a newspaper

Posted by in categories: electronics, mobile phones, transportation

LG Display has a prototype 18-inch screen it’s showing off at the Consumer Electronics Show this week that rolls up like a piece of paper. The technology builds on LG’s forward-looking OLED work focusing on bendable, rollable, and curving displays. The company showed similar technology last year as a proof of concept, but kept images behind closed doors. Now LG looks ready to show the world.

We’ve seen this type of concept display from the likes of Sony, Samsung, Sharp, and others in the past. However, it does indicate that LG sees these types of futuristic displays as differentiation points for smartphones, tablets, and TVs. LG envisions these types of screens rolling up into our pockets or being made to wrap around interior spaces, and the company will show off a 25-inch curved screen installed on the inside of a car at its Auto Zone section on the show floor.

We’ll get a closer look at the newspaper-like screen in a couple of days, as well as a new 55-inch “paper thin” TV that has all its electronics installed independently, according to LG. So check back in with The Verge for LG coverage and everything else CES-related throughout the week.

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Jan 2, 2016

Researchers Develop Stretchy Material for Wearable Tech

Posted by in categories: biotech/medical, electronics, health, materials, wearables

It’s a new resin.

Researchers at Panasonic PCRFY −0.78% in Japan have developed a new kind of resin that has the potential to make personal health electronics leaner and comfier.

The stretchy tech, announced by the company on Dec. 28, can be used as a base for electronic materials. Its physical properties makes electronics easier to apply to skin or clothing—like a Band-Aid or a tattoo, rather than a watch or a strap.

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Dec 31, 2015

Samsung has an all-in-one health chip for wearables

Posted by in categories: biotech/medical, computing, electronics, health, wearables

Samsung’s already wide product family is getting even bigger thanks to its new chip dubbed the “Samsung Bio-Processor.” As the company tells it, it’s already in mass production and is “specifically designed to allow accelerated development of innovative wearable products for consumers who are increasingly monitoring their health and fitness on a daily basis.” Phew. The announcement post goes on to say that the processor is the first all-in-one health solution chip and that since it’s packing a number of different control and sensor units (like a quintet of Analog Front Ends, a microcontroller unit, digital signal processor and eFlash memory) it can do all these tricks without the need for external processing.

The idea behind the silicon is to be the one-stop wearable fitness resource. Those five AFEs? One keeps track of bioelectrical impedance analysis, while the others focus on volumetric measurements of organs, an electrocardiogram and skin temperature, among other things. Bear in mind that Samsung’s latest smartwatch, the Gear S2, only tracks your heart rate. Same goes for the Apple Watch. Considering how err… interesting Samsung wearables tend to be, a possible scenario here is that the tech giant won’t keep the Bio-Processor all to itself. Nope, the real money here lies in potentially licensing it out to other folks, as it’s wont to do with its other self-made parts.

We won’t have to wait too long to see these in the wild, either: Samsung promises it’ll be packed into devices available early next year. If you’re wondering where, the inevitable follow-up to the aforementioned Gear S2 successor is a pretty likely bet. Whether that shows its face at CES or Mobile World Congress is the real question, though.

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Dec 30, 2015

Computer-on-Modules Enable First Bionic Leg with No Surgery or Implants

Posted by in categories: biotech/medical, computing, cyborgs, electronics, transhumanism

Small Form Factor Technology Solves Complexities of Thought-Controlled Leg Prosthetics

Rehabilitation Institute of Chicago has developed the first neural-controlled bionic leg, using no nerve redirection surgery or implanted sensors. It’s a powerful advancement in prosthetics, including motorized knee and ankle, and control enabled by the patient’s own neural signals. Powered by a tiny but powerful Computer-on-Module platform, this thought-controlled prosthetic represents a significant breakthrough in medical embedded design, improving patients’ lives and mobility with a prosthetic that more closely than ever acts like a fully-functioning natural limb.

The technology of prosthetic limbs has come a long way over time, yet options are still limited for leg amputees. While simple peg legs have evolved to more sophisticated and realistic artificial limbs, the patient was forced to undergo nerve surgery or endure invasive implants. And even though the technology to produce through-controlled mechanized arms has existed for some time, the complexities of leg motion have kept it from being successfully applied in leg prosthetics. Without the ability to move and control the knee and ankle, the prosthetic leg remained a passive solution for patients struggling to replicate natural leg motion.

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Dec 27, 2015

‘Writable’ Circuits Could Let Scientists Draw Electronics into Existence

Posted by in categories: biotech/medical, electronics, materials, wearables

Scientists have developed a way to produce soft, flexible and stretchy electronic circuits and radio antennas by hand, simply by writing on specially designed sheets of material.

This technique could help people draw electronic devices into existence on demand for customized devices, researchers said in a new study describing the method.

Continue reading “‘Writable’ Circuits Could Let Scientists Draw Electronics into Existence” »

Dec 23, 2015

Chip combining optics and electronics could mean faster, more energy-efficient computing

Posted by in categories: computing, electronics

For the first time, researchers have used existing manufacturing technology to make a complex processor that uses energy-efficient optical connections.

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Dec 22, 2015

Pulsed laser light turns whole-brain activity on and off

Posted by in categories: bioengineering, biotech/medical, electronics, genetics, neuroscience

Optogenetic laser light stimulation of the thalamus (credit: Jia Liu et al./eLife)

By flashing high-frequency (40 to 100 pulses per second) optogenetic lasers at the brain’s thalamus, scientists were able to wake up sleeping rats and cause widespread brain activity. In contrast, flashing the laser at 10 pulses per second suppressed the activity of the brain’s sensory cortex and caused rats to enter a seizure-like state of unconsciousness.

“We hope to use this knowledge to develop better treatments for brain injuries and other neurological disorders,” said Jin Hyung Lee, Ph.D., assistant professor of neurology, neurosurgery, and bioengineering at Stanford University, and a senior author of the study, published in the open-access journal eLIFE.

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Dec 20, 2015

Luna Is The World’s Most Compact Consumer VR Camera

Posted by in categories: electronics, virtual reality

Consumer-level VR cameras are steadily on the rise, due to the growth of VR experiences and the wide array of things that virtual reality has to offer. To read more…

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Dec 18, 2015

Nanodevices at one-hundredth the cost

Posted by in categories: business, electronics, mobile phones

Microelectromechanical systems—or MEMS—were a $12 billion business in 2014. But that market is dominated by just a handful of devices, such as the accelerometers that reorient the screens of most smartphones.

That’s because manufacturing MEMS has traditionally required sophisticated semiconductor fabrication facilities, which cost tens of millions of dollars to build. Potentially useful MEMS have languished in development because they don’t have markets large enough to justify the initial capital investment in production.

Two recent papers from researchers at MIT’s Microsystems Technologies Laboratories offer hope that that might change. In one, the researchers show that a MEMS-based gas sensor manufactured with a desktop device performs at least as well as commercial sensors built at conventional production facilities.

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Dec 18, 2015

When wearable electronics devices disappear into clothes

Posted by in categories: electronics, wearables

Here come the self drying jackets and self tying shoes! wink


The Athos Upper Body Package includes 14 built in sensors for real-time muscle and heart rate data. (credit: Athos)

Wearables will “disappear” in 2016, predicts New Enterprise Associates venture capital partner Rick Yang, cited in a Wednesday (Dec. 16) CNBC article — integrated “very directly into your everyday life, into your existing fashion sense to the extent that nobody knows you’re wearing a wearable,” he said.

Continue reading “When wearable electronics devices disappear into clothes” »

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