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Archive for the ‘electronics’ category: Page 89

Jan 29, 2016

This may look like an ordinary coaxial data cable

Posted by in categories: electronics, transportation

But a carbon nanotube coating (shown in clear jacket) replaces the tin-coated copper braid that serves as the outer conductor, ordinarily the heaviest component. Created by researchers at Rice University, the coating was tested by a collaborative group including NIST, which has more than 10 years of expertise in characterizing and measuring nanotu…bes. The coating, only up to 90 microns (millionths of a meter) in thickness, resulted in a total cable mass reduction of 50 percent (useful for lowering the weight of electronics in aerospace vehicles) and handled 10,000 bending cycles without affecting performance. And even though the coating is microscopically thin, the cable transmitted data with a comparable ability to ordinary cables, due to the nanotubes’ favorable electrical properties.

Credit: J. Fitlow/Rice University See More

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Jan 27, 2016

What new wearable sensors can reveal from perspiration

Posted by in categories: electronics, health, mobile phones, wearables

When engineers at the University of California, Berkeley, say they are going to make you sweat, it is all in the name of science. Specifically, it is for a flexible sensor system that can measure metabolites and electrolytes in sweat, calibrate the data based upon skin temperature and sync the results in real time to a smartphone.

While health monitors have exploded onto the consumer electronics scene over the past decade, researchers say this device, reported in the Jan. 28 issue of the journal Nature (“Fully integrated wearable sensor arrays for multiplexed in situ perspiration analysis”), is the first fully integrated electronic system that can provide continuous, non-invasive monitoring of multiple biochemicals in sweat.

wristband sweat sensor

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Jan 27, 2016

New record in nanoelectronics at ultralow temperatures

Posted by in categories: computing, electronics, quantum physics

Another Quantum Breakthrough through ultra- low temp nanoelectronics- Sub-millikelvin nanoelectronic circuits and is another step on the way to develop new quantum technologies including quantum computers and sensors.


The first ever measurement of the temperature of electrons in a nanoelectronic device a few thousandths of a degree above absolute zero was demonstrated in a joint research project performed by Lancaster University, VTT Technical Research Centre of Finland Ltd, and Aivon Ltd.

The team managed to make the electrons in a circuit on a silicon chip colder than had previously been achieved.

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Jan 24, 2016

LG OLED TV : You Dream We Display

Posted by in categories: electronics, futurism

https://www.youtube.com/watch?v=VenG8TF90yA&feature=youtu.be

Experience the whole new future created by OLED and see how OLED will bring significant change to our life.

For more information visit▶
LG OLED TV UK URL: http://www.lg.com/uk/lgoled/

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Jan 23, 2016

For VR to be truly immersive, it needs convincing sound to match

Posted by in categories: electronics, neuroscience, virtual reality

The VR sound barrier; how do we address?


I’m staring at a large iron door in a dimly lit room. “Hey,” a voice says, somewhere on my right. “Hey buddy, you there?” It’s a heavily masked humanoid. He proceeds to tell me that my sensory equipment is down and will need to be fixed. Seconds later, the heavy door groans. A second humanoid leads the way into the spaceship where my suit will be repaired.

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Jan 22, 2016

DARPA’s to-be built wetware to prove immensely beneficial in medicine field

Posted by in categories: biotech/medical, business, computing, electronics, engineering, health, neuroscience, supercomputing, transportation

BMI is an area that will only explode when the first set of successful tests are presented to the public. I suggest investors, technologists, and researchers keep an eye on this one because it’s own impact to the world is truly inmense especially when you realize BMI changes everything in who we view how we process and connect with others, business, our homes, public services, transportation, healthcare, etc.


Implantable brain-machine interfaces (BMI) that will allow their users to control computers with thoughts alone will soon going to be a reality. DARPA has announced its plans to make such wetware. The interface would not be more than two nickels placed one on the other.

These implantable chips as per the DARPA will ‘open the channel between the human brain and modern electronics’. Though DARPA researchers have earlier also made few attempts to come up with a brain-machine interface, previous versions were having limited working.

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Jan 20, 2016

DARPA wants to build wetware so we can mind control computers

Posted by in categories: biotech/medical, cyborgs, electronics, engineering, neuroscience, supercomputing

Hot damn, our Ghost in the Shell future is getting closer by the day. DARPA announced on Tuesday that it is interested in developing wetware — implantable brain-machine interfaces (BMI) that will allow their users to control computers with their thoughts. The device, developed as part of the Neural Engineering System Design (NESD) program, would essentially translate the chemical signals in our neurons into digital code. What’s more, DARPA expects this interface to be no larger than two nickels stacked atop one another.

“Today’s best brain-computer interface systems are like two supercomputers trying to talk to each other using an old 300-baud modem,” Phillip Alvelda, the NESD program manager, said in a statement. “Imagine what will become possible when we upgrade our tools to really open the channel between the human brain and modern electronics.”

The advanced research agency hopes the device to make an immediate impact — you know, once it’s actually invented — in the medical field. Since the proposed BMI would connect to as many as a million individual neurons (a few magnitudes more than the 100 or so that current devices can link with), patients suffering from vision or hearing loss would see an unprecedented gain in the fidelity of their assistive devices. Patients who have lost limbs would similarly see a massive boost in the responsiveness and capabilities of their prosthetics.

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Jan 20, 2016

Report by Robert Scoble from CES | KurzweilAI

Posted by in categories: augmented reality, driverless cars, electronics, virtual reality

Allworlds

“CES wrapped up last week and I can say it was the best one I’ve seen in a decade. Three big stories jumped out this year:

1. VR.
2. Self driving cars.
3. AR.”

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Jan 20, 2016

OLED build the dreams of the world

Posted by in category: electronics

Tour of future office. Just @ your Boss. #LG

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Jan 19, 2016

A self-assembling molecular nanoswitch

Posted by in categories: electronics, nanotechnology, neuroscience, supercomputing

Interesting article about nanoswitches and how this technology enables the self-assembly of molecules. This actually does help progress many efforts such as molecular memory devices, photovoltaics, gas sensors, light emission, etc. However, I see the potential use in nanobot technology as it relates to future alignment mappings with the brain.


Molecular nanoswitch: calculated adsorption geometry of porphine adsorbed at copper bridge site (credit: Moritz Müller et al./J. Chem. Phys.)

Technical University of Munich (TUM) researchers have simulated a self-assembling molecular nanoswitch in a supercomputer study.

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