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Archive for the ‘wearables’ category: Page 53

Jul 19, 2016

Researchers develop plastic flexible magnetic memory device

Posted by in categories: computing, engineering, health, military, robotics/AI, wearables

A new technique has been developed to implant high-performance magnetic memory chip on a flexible plastic surface without compromising performance.

It looks like a small piece of transparent film with tiny engravings on it, and is flexible enough to be bent into a tube. Yet, this piece of “smart” plastic demonstrates excellent performance in terms of data storage and processing capabilities. This novel invention, developed by researchers from the National University of Singapore (NUS), hails a breakthrough in the flexible electronics revolution, and brings researchers a step closer towards making flexible, wearable electronics a reality in the near future.

The technological advancement is achieved in collaboration with researchers from Yonsei University, Ghent University and Singapore’s Institute of Materials Research and Engineering. The research team has successfully embedded a powerful magnetic memory chip on a flexible plastic material, and this malleable memory chip will be a critical component for the design and development of flexible and lightweight devices. Such devices have great potential in applications such as automotive, healthcare electronics, industrial motor control and robotics, industrial power and energy management, as well as military and avionics systems.

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Jul 18, 2016

Fashion Technology 2016

Posted by in categories: augmented reality, wearables

Maybe time to create “Fashion’s Tech Golden Rules”.


Mistakes You Cannot Make.

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Jul 18, 2016

‘Smart’ thread collects diagnostic data when sutured into tissue

Posted by in categories: biotech/medical, chemistry, computing, health, mobile phones, nanotechnology, wearables

Way cool! Your stitches monitors and reports your progress to your doctor/s.

BTW — In 1999, I told a guy from Diamond Intl. that the thread in our clothing would be able to do this in the next 15 to 20 years. He laughed at me; never say never.


For the first time, researchers led by Tufts University engineers have integrated nano-scale sensors, electronics and microfluidics into threads — ranging from simple cotton to sophisticated synthetics — that can be sutured through multiple layers of tissue to gather diagnostic data wirelessly in real time, according to a paper published online July 18 in Microsystems & Nanoengineering. The research suggests that the thread-based diagnostic platform could be an effective substrate for a new generation of implantable diagnostic devices and smart wearable systems.

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Jul 18, 2016

Has the Tech Industry Got Wearables All Wrong?

Posted by in categories: business, transportation, wearables

Personally, I wouldn’t state that tech got the whole wearables wrong; its more been operated in a mode of experimentation with the public in an order to perfect the technology. I believe we’re now on a track to broaden this technology to accommodate more consumers on multiple levels such as business travelers may wish to have suits and bus attire that self cleans and can (when your wearing and biosensor is activated) be leveraged to store your id information or when you’re processed through airports instead of having to juggle for your license/ passport.


The key to unlocking the $150 billion wearables market is textiles not silicon.

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Jul 2, 2016

IC wants sensors to evaluate personnel performance

Posted by in categories: electronics, wearables

Has anyone seen “The Yes Men” youtube video where they present to the WTO their proposed employee monitoring suit to ensure employees were working and performing while the supervisor is at the beach. This reminds me a little of that same scenario; except this time it’s the employees wearing the wearable monitor to measure & track their performance.


Working in the intelligence community can be stressful. The IC’s research arm wants to use sensors to evaluate how people respond to the demands of the job.

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Jun 30, 2016

The Next Wearable Technology Could Be Your Skin

Posted by in categories: computing, mobile phones, wearables

Technology can be awkward. Our pockets are weighed down with ever-larger smartphones that are a pain to pull out when we’re in a rush. And attempts to make our devices more easily accessible with smartwatches have so far fallen flat. But what if a part of your body could become your computer, with a screen on your arm and maybe even a direct link to your brain?

Artificial electronic skin (e-skin) could one day make this a possibility. Researchers are developing flexible, bendable and even stretchable electronic circuits that can be applied directly to the skin. As well as turning your skin into a touchscreen, this could also help replace feeling if you’ve suffered burns or problems with your nervous system.

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Jun 17, 2016

Could an implant have saved the life of the toddler attacked by an alligator?

Posted by in categories: biotech/medical, business, computing, geopolitics, mobile phones, transhumanism, transportation, wearables

A new article considering chip implants:


Among other tragedies in Florida recently gripping America’s attention, a 2-year-old boy was snatched away from its parents by an alligator at Walt Disney World on Wednesday. I have a similar-aged toddler myself, and I followed this heartbreaking story closely. Unfortunately, it ended as horribly as it began, with the recovery of a dead child.

My presidential campaign with the Transhumanist Party is based on advocating for radical science and technology to make the world a better place for humans. As a result, for nearly two years I have been advocating for using chip implants in people to help keep them safer. Chip implants are often just the size of a grain of rice and can be injected by a needle in a nearly pain-free 60-second procedure. The implants can do a multiple array of things depending on the type. And much of the technology has been used in pets for over a decade, so it’s already been shown to be relatively safe.

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Jun 8, 2016

The Elderly May One Day Swap Their Motorized Scooters for Robotic Suits

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

Robotic exoskeletons, long a staple of sci-fi novels, comic books, and movies, are now part of the real world—and they’ve mostly followed the sci-fi model. That is, exoskeletons are wearable robots. All metal, all the time. But metal suits are heavy and power hungry, and the human body isn’t metal. If you actually plan to use an exoskeleton for an extended period of time, this can be a bit of a design flaw.

That’s where a new exosuit developed by SRI International is looking to flip the script. Instead of working to build exoskeletons—which are rigid like their namesake—SRI is using soft robotics to make lightweight, wearable “exomuscles” and “exotendons.”

Instead of a human-shaped heavy metal frame, SRI’s exosuit is soft, pliable, and intelligent. The suit learns and adapts to its wearer’s movements to give them a boost when needed. It’s quick to put on and relatively energy efficient.

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Jun 7, 2016

Want to know what the future of medical invention looks like? Read on

Posted by in categories: 3D printing, biotech/medical, business, computing, cyborgs, food, habitats, mobile phones, singularity, transportation, wearables

Medical/ Biocomputing will only continue to grow and advance as a result of the demand for more improved experiences by consumers and business in communications and entertainment, food, home life, travel, business, etc.

Today, we have seen early opportunities and benefits with 3D printing, BMI, early stage Gene/ Cell circuitry and computing. In the future, we will see these technologies more and more replaced by even more advance Biocomputing and gene circuitry technology that will ultimately transform the human experiences and quality of life that many like to call Singularity.


Printing technology has come a long way from screechy dot-matrix printers to 3D printers which can print real life objects from metals, plastics, chemicals and concrete. While, at first, 3D printers were being used to create just basic shapes with different materials, more recently, they have been used to create advanced electronics, bio-medical devices and even houses.

Aircraft manufacturer Airbus recently showcased the world’s first 3D-printed mini aircraft, Thor, at the International Aerospace Exhibition and Air Show in Berlin. Although Airbus and its competitor have been using 3D-printed parts for their bigger assemblies, recent attempt shows that aviation may be ready for a new future with much lighter and cheaper planes given 3D printing not only cuts down the costs with less wastage, it also makes the plane lighter, thereby making them faster and more fuel efficient. But planes and toys is not what 3D printing might be restricted to; though in the elementary stage at the moment, the technology is being used for creating complex electronics like phones and wearables and may be able to reduce costs for manufacturers like Samsung and Apple.

Continue reading “Want to know what the future of medical invention looks like? Read on” »

Jun 7, 2016

Affordable, lightweight, low power walking assistance and strength enhancement for the soldier and the elderly with the Superflex exosuit

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

SRI is developing wearable “exosuits” that can augment the musculoskeletal system for performance and strength enhancement and assistance to overcome or prevent damage from injury or disease. SRI’s exosuit differs from exoskeletons by using new muscle-like actuation, comfortable and soft skin attachment, and electronically releasable spring elements to minimize mass, bulk, and noise as well as eliminate constraints on natural joint motions. As part of DARPA’s Warrior Web Program, the technology is being applied to prevent and reduce musculoskeletal injuries caused by dynamic events typically found in the warfighter’s environment. They are exploring other military applications and beginning to use the technologies to assist individuals with musculoskeletal diseases.

The wearable exosuit, Superflex, uses motion sensors, accelerometers and gyroscopes to read the speed and angles of the owner’s legs and adjust its movements accordingly.

On April 21, 2016 – SRI International announced the launch of Superflex, Inc., its newest spin-off venture. Superflex will develop cutting-edge wearable robotics to enhance the human musculoskeletal system for a wide range of applications.

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