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Category: wearables

Pressure is on DARPA by US Military to speed up on completing the soft Exosuit.

The clothing-like Soft Exosuit has been described as a “Wearable Robot” by the U.S. Defense Advanced Projects Research Agency (DARPA) that’s commissioning universities and research institutions to advance this military technology. The DARPA Soft Exosuit is part of the agency’s Warrior Web program.

A prototype Soft Exosuit had a series of webbing straps around the lower half of the body with a low-power microprocessor and a network of flexible strain sensors. These electronics act as the “brain” and “nervous system” of the Soft Exosuit. They continuously monitor data signals, including suit tension, wearer position (walking, running, crouched) and more.

In 2014, DARPA awarded $2.9 million to The Wyss Institute for Biologically Inspired Engineering at Harvard University to further develop its Soft Exosuit, other versions of which might eventually help persons (military and civilian) with limited mobility.

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Movidius’ Myriad 2 vision processing chip (Photo: Movidius)

The branch of artificial intelligence called deep learning has given us new wonders such as self-driving cars and instant language translation on our phones. Now it’s about to injects smarts into every other object imaginable.

That’s because makers of silicon processors from giants such as Intel Corp. and Qualcomm Technologies Inc. as well as a raft of smaller companies are starting to embed deep learning software into their chips, particularly for mobile vision applications. In fairly short order, that’s likely to lead to much smarter phones, drones, robots, cameras, wearables and more.

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Interesting approach.

If you’re at all interested in your health, it’s likely you’ve joined the 20 percent of Americans who’ve incorporated fitness trackers into their daily ensemble. From monitoring steps and daily activity to sleep, an ever-growing number of devices are tracking and analyzing our body’s data in an effort to make us better.

But how good is this tracking? Despite noble intentions, the scientific reality is that much of the data these trackers provide is insufficient and inaccurate — and in turn, are not as effective as they promise.

This is especially true when it comes to sleep. Sleep scientists have looked at sleep wearables, like Fitbit and Jawbone, with skepticism — and for good reason. While the devices claim to monitor and help you sleep, scientific precision isn’t guaranteed.

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Ask an Information Architect, CDO, Data Architect (Enterprise and non-Enterprise) they will tell you they have always known that information/ data is a basic staple like Electricity all along; and glad that folks are finally realizing it. So, the same view that we apply to utilities as core to our infrastructure & survival; we should also apply the same value and view about information. And, in fact, information in some areas can be even more important than electricity when you consider information can launch missals, cure diseases, make you poor or wealthy, take down a government or even a country.

What is information? Is it energy, matter, or something completely different? Although we take this word for granted and without much thought in today’s world of fast Internet and digital media, this was not the case in 1948 when Claude Shannon laid the foundations of information theory. His landmark paper interpreted information in purely mathematical terms, a decision that dematerialized information forever more. Not surprisingly, there are many nowadays that claim — rather unthinkingly — that human consciousness can be expressed as “pure information”, i.e. as something immaterial graced with digital immortality. And yet there is something fundamentally materialistic about information that we often ignore, although it stares us — literally — in the eye: the hardware that makes information happen.

As users we constantly interact with information via a machine of some kind, such as our laptop, smartphone or wearable. As developers or programmers we code via a computer terminal. As computer or network engineers we often have to wade through the sheltering heat of a server farm, or deal with the material properties of optical fibre or copper in our designs. Hardware and software are the fundamental ingredients of our digital world, both necessary not only in engineering information systems but in interacting with them as well. But this status quo is about to be massively disrupted by Artificial Intelligence.

A decade from now the postmillennial youngsters of the late 2020s will find it hard to believe that once upon a time the world was full of computers, smartphones and tablets. And that people had to interact with these machines in order to access information, or build information systems. For them information would be more like electricity: it will always be there, and always available to power whatever you want to do. And this will be possible because artificial intelligence systems will be able to manage information complexity so effectively that it will be possible to deliver the right information at the right person at the right time, almost at an instant. So let’s see what that would mean, and how different it would be from what we have today.

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We definitely need precision medicine. If you don’t believe it is worth that; then I have a few widows & widowers who you should speak to; I have parents that you should speak with; I have a list of sisters & brothers that you should speak with; and I have many many friends (including me) that you should speak with about how we miss those we love because things like precision medicine wasn’t available and could have saved their lives.

Precision medicine is the theme for the 10th annual symposium of the Johns Hopkins Institute for Nano Biotechnology, Friday, April 29, 2016 at 9 a.m. in the Owens Auditorium at the School of Medicine. This year’s event is cohosted by Johns Hopkins Individualized Health Initiative (also known as Hopkins in Health) and features several in Health affiliated speakers.

By developing treatments that overcome the limitations of the one-size-fits-all mindset, precision medicine will more effectively prevent and thwart disease. Driven by data provided from sources such as electronic medical records, public health investigations, clinical studies, and from patients themselves through new point-of-care assays, wearable sensors and smartphone apps, precision medicine will become the gold standard of care in the not-so-distant future. Before long, we will be able to treat and also prevent diseases such as diabetes, Alzheimer’s disease, heart disease, and cancer with regimes that are tailor-made for the individual.

Hopkins in Health is a signature initiative of Johns Hopkins University’s $4.5 billion Rising to the Challenge campaign is a collaboration among three institutions: the University, the Johns Hopkins Health System, and the Applied Physics Laboratory. These in Health researchers combine clinical, genetic, lifestyle, and other data sources to create innovative tools intended to improve decision-making in the prevention and treatment of a range of conditions, including cancer, cardiovascular disease, autoimmune disorders, and infectious disease. The goal is to “provide the right care to the right person at the right time.”

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We’re in an exploding evolution state for technology across all industry sectors and consumer markets.

3 to next 5 years — we see IoT, Smartphones, Wearables, AI (bots, drones, smart devices and machines), 3D printing, commercialization of space, CRISPR, Liq Biopsies, and VR & AR tech.

5 to next 8 years — we will see more BMI technology, smart body parts, QC & other Quantum Tech, Humanoid AI tech, bio-computing, early stage space colonization and mining expansion in space, smart medical tech., and an early convergence of human & animals with technology. 1st expansion of EPA in space exploration due to mining and over mining risks as well as space colonization. New laws around Humanoids and other technologies. Smartphones no longer is mass use due to AR and BMI technology and communications.

Beyond 10 years, Singularity (all things connected) and immortality is offered.

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Nice

The consumer version of Google Glass smart wearable probably won’t be coming to the market anytime soon, but it seems like the project is far from dead. Namely, one of the startups which came to being after Google originally revealed its hi-tech headset several years ago is now raising new capital in order to bring Google’s optical head-mounted display into more hospitals and other health care facilities. The company in question is Augmedix, one of the ten official “Google Glass for Work” partners. Its main activity is developing software for wearable devices utilized in the medical industry, i.e. co-developing inventions which should make doctors’ lives easier. As Augmedix’s CEO Ian Shakil puts it, the doctors are “engaging with patients in front of them” while his company’s inventions are taking care of the “burdensome work in the background”.

Augmedix managed to raise $17 million of strategic investment capital from five institutions: TriHealth Inc., Sutter Health, Catholic Health Initiatives, Dignity Health, and a fifth, yet unnamed entity. This is the second round of funding the Silicon Valley company managed to secure in just over a year after raising $16 million in 2015. In total, the groups which financed Augmedix’s endeavors represent more than 100,000 health care providers. Naturally, the company can’t yet aim to deliver 100,000 of smart wearables designed for the medical industry, but it’s slowly getting there. Specifically, it’s currently providing equipment and services to hundreds of physicians and surgeons and is hoping to do the same with “thousands” more by 2017. No concrete figures have been provided by Augmedix, though the startup did confirm that it’s currently achieving a “multi-million dollar revenue” on a yearly basis.

What does this all mean for Google Glass? Well, despite the plans for the consumer version of the headset being momentarily dropped by Google, the Work program designed to deliver the said piece of hardware to various industries around the world is still going strong, and Augmedix is one of Google’s key partners in this business endeavor. Google Glass 2.0, officially called Project Aura is currently in development for enterprise applications and it seems like it has a very bright future in the medical industry as Augmedix claims its internal study concluded that close to 100 percent of patients are completely fine with their doctors using augmented reality (AR) headsets. In addition to that, it’s worth noting that Glass is the dominant platform Augmedix sells its services on, so it makes sense that this latest round of funding will see it end up in more heath care facilities in the very near future.

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They deserve it too.

X2 Biosystems has received the Society for Brain Mapping and Therapeutics (SBMT) 2016 Pioneer in Healthcare Technology Innovations Award for developing its next-generation head impact measurement sensor technology, the company said.

X2´s “X-Patch” wearable impact sensor has become widely deployed and tested head impact monitoring device, used in a continually expanding range of athletic activities from football (youth, high school, collegiate, pro) to hockey, soccer, lacrosse, rugby, Australian rules football, baseball, field hockey, wrestling, boxing, taekwondo, mixed martial arts, skiing and BMX cycling.

The X-Patch is also being actively evaluated for use in military training applications.

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Nthing new; nice to see more folks waking up.

We’re moving beyond just prosthetics and wearable tech. Soon, we’ll all by cyborgs in one way or another.

From The Six Million Dollar Man to Inspector Gadget to Robocop, humans with bionic body parts have become commonplace in fiction. In the real world, we use technology to restore functionality to missing or defective body parts; in science fiction, such technology gives characters superhuman abilities. The future of cyborgs may hinge on that distinction.

The Defense Advanced Research Projects Agency (DARPA) plans to develop a brain implant that links human brains to computers. Under the Obama administration’s Brain Initiative, DARPA has developed eight programs designed to enhance human physical and cognitive capabilities. The Neural Engineering System Design program seeks to “bridge the bio-electronic divide” via a small implant that acts as a translator between the brain and the digital world, giving humans improved sight and hearing.

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