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Archive for the ‘wearables’ category: Page 62

Sep 30, 2016

New Quantum-Powered AI Exoskeleton Lets One Person Do the Work of Four

Posted by in categories: computing, cyborgs, quantum physics, robotics/AI, wearables

As the saying goes, “If you want something done right, you gotta do it yourself,” and it seems that you’ll soon be able to get a lot more done using artificially intelligent, high-tech exoskeleton Kindred. It’s the product of a startup created by quantum computing company D-Wave’s founder Geordie Rose, and according to the venture capital firm funding Kindred, the device “uses AI-driven robotics so that one human worker can do the work of four.”

Based on a patent application, the wearable system is envisioned as a 1.2-meter tall humanoid that may be covered with synthetic skin. It will include a head-mounted display and an exo-suit of sensors and actuators that carries out everyday tasks.

Essentially, it looks something like Spider-Man’s Doctor Octopus on the outside, but on the inside, Kindred utilizes quantum computation, a way of information processing and storage that is much faster and more powerful than that used by conventional computers. Data “learned” by the suit can be taught to other robots, allowing those robots to then perform the tasks autonomously.

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Sep 24, 2016

Mind-Controlled Exoskeleton Could Help Paraplegic Children

Posted by in categories: biotech/medical, cyborgs, robotics/AI, wearables

University of Houston researchers aim to leverage a new, noninvasive brain-machine interface system that taps into human brainwaves to control and command a wearable exoskeleton—a technology that could enable paraplegic kids to walk.

Kristopher Sturgis

Exoskeleton University of Houston

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Sep 12, 2016

Crocus Technology Introduces a Nano-Power TMR Digital Switch

Posted by in categories: computing, nanotechnology, wearables

Nice.


Crocus Technology, a leading developer of Tunneling Magnetoresistive Sensors (TMR) based on proprietary and patented Magnetic Logic Unit (MLU) technology, announces the availability of the CT51x digital switch, the first in a series of fully integrated digital sensors the company has launched. This family of devices accommodates a wide range of applications with larger air gaps, smaller magnetic fields, and significantly lower power consumption. The CT51x enables high-accuracy position detection, control and power switching functions with high sensitivity and reliability that system designers demand for the IoT, consumer and industrial applications.

“With ever increasing demand for intelligent sensing in smart products, the CT51x family of devices offers design-in flexibility and cost-savings for existing and emerging applications: IoT, wearables, appliances, smart meters, intelligent smart locks and other consumer products,” said Zack Deiri, Chief Sales and Marketing Officer at Crocus Technology. “The market is gravitating towards intelligent solid-state magnetic switches that provide higher reliability, faster frequency response, and extremely low power consumption for battery-powered applications in a smaller form factor, such as the CT51x.”

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Sep 1, 2016

Continuous Roll-process Technology for Transferring and Packaging Flexible Large-scale Integrated Circuits

Posted by in categories: computing, wearables

Luv this.


A research team led by Professor Keon Jae Lee from the Korea Advanced Institute of Science and Technology (KAIST) and by Dr. Jae-Hyun Kim from the Korea Institute of Machinery and Materials (KIMM) has jointly developed a continuous roll-processing technology that transfers and packages flexible large-scale integrated circuits (LSI), the key element in constructing the computer’s brain such as CPU, on plastics to realize flexible electronics.

Professor Lee previously demonstrated the silicon-based flexible LSIs using 0.18 CMOS (complementary metal -oxide semiconductor) process in 2013 (ACS Nano, “In Vivo Silicon-based Flexible Radio Frequency Integrated Circuits Monolithically Encapsulated with Biocompatible Liquid Crystal Polymers”) and presented the work in an invited talk of 2015 International Electron Device Meeting (IEDM), the world’s premier semiconductor forum.

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Aug 31, 2016

What Mind-Controlled Drones Mean for the Future of Digital Marketing

Posted by in categories: bioengineering, biotech/medical, drones, finance, government, neuroscience, robotics/AI, wearables

Luv this article because it hits a very important topic of how will things change with BMI/ mind control technology in general. For example with BMI will we need wearable devices? if so, what type and why? Also, how will banking, healthcare, businesses, hospitality, transportation, media and entertainment, communications, government, etc. in general will change with BMI and AI together? And, don’t forget cell circuitry, and DNA storage and processing capabilities that have been proven to date and advancing.

When you take into account what we are doing with synthetic biology, BMI, AI, and QC; we are definitely going to see some very amazing things just within the next 10 years alone.

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Aug 28, 2016

Stretchy supercapacitors power wearable electronics

Posted by in categories: energy, mobile phones, robotics/AI, wearables

A future of soft robots that wash your dishes or smart T-shirts that power your cell phone may depend on the development of stretchy power sources. But traditional batteries are thick and rigid—not ideal properties for materials that would be used in tiny malleable devices. In a step toward wearable electronics, a team of researchers has produced a stretchy micro-supercapacitor using ribbons of graphene.

The researchers will present their work today at the 252nd National Meeting & Exposition of the American Chemical Society (ACS).

“Most power sources, such as phone batteries, are not stretchable. They are very rigid,” says Xiaodong Chen, Ph.D. “My team has made stretchable electrodes, and we have integrated them into a supercapacitor, which is an energy storage device that powers electronic gadgets.”

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Aug 28, 2016

Unisys Survey Finds Wearable Technology to Revolutionize Biometrics; Privacy Issues Yet to Be Addressed

Posted by in categories: law enforcement, privacy, wearables

Law enforcement to lead adoption, but new formats and sensors will enable wider commercial application of wearable biometrics…


SYDNEY, Aug. 23, 2016 /PRNewswire/ — Law…

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Aug 19, 2016

‘Interscatter communication’ could help your brain implant talk to your iPhone

Posted by in categories: energy, internet, mobile phones, neuroscience, wearables

Researchers have created a way of letting next-gen wearables and implants communicate with the outside world using 10,000x less power than regular Wi-Fi.

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Aug 17, 2016

MIT and Microsoft Research made a ‘smart’ tattoo that remotely controls your phone

Posted by in categories: mobile phones, wearables

A group of PhD students from the MIT Media Lab and researchers from Microsoft Research have come up with the ultimate wearable: a temporary tattoo that can turn into a touchpad, remotely control your smartphone, or share data using NFC.

The technology, which is described on MIT’s website and will be presented in full at a wearables symposium next month, is called DuoSkin. The researchers say you can design a circuit using any graphic software, stamp out the tattoo in gold leaf (which is conductive to electricity), and then apply other commodity materials and components that would make the tattoo interactive.

The paper presents three key use cases for the tattoo: you could use it to turn your skin into a trackpad, design it to change color based on temperature, or pull data from the tattoo. In one photo shared by MIT the tattoo even includes LED lights, creating a kind of glowing display on the skin.

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Aug 15, 2016

4 Smart Textiles Revolutionizing the Future of Fabric

Posted by in categories: biotech/medical, computing, military, wearables

Luv it; especially fabric to do time release meds, or bio release meds; or do communications via a shirt or jacket.


With the invention of technology-laden fabrics, otherwise known as smart textiles, we are able to benefit from multifunctional materials.

Smart textiles, also known as E-textiles, smart garments, tech fabrics, and smart fabrics, are materials based on technology that integrate advanced features beneficial to the wearer. In an interview with Forbes, Rebeccah Pailes-Friedman, smart textiles and wearable technologies expert stated, “what makes smart fabrics revolutionary is that they have the ability to do many things that traditional fabrics cannot, including communicate, transform, conduct energy and even grow.” And as crazy as it might sound, having computers and technology literally integrated into our clothing is not only acceptable but may one day be the norm.

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