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In an analyst note published on Wednesday, Goldman Sachs predicted that the virtual reality (VR) market will outpace the TV market in annual revenue by 2025, making VR bigger than TV.

The banking firm writes that the VR market will generate $110 billion dollars compared to TVs $99 billion in 10 years.

This will happen if VR adoption follows their “Accelerated Uptake” projection, in which virtual reality becomes more commonplace through advances in battery and cellular technologies. By eventually ditching the current wires and accompanying computers needed to power high-end VR headsets, the devices would become truly mobile; think a headset that’s more akin to a pair of sunglasses than the bulky goggles of the first generation Oculus Rift and HTC Vive.

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Wow!!! Chewing gum wearable technology, Cyborg Chips, Ingestible sensors to let doctors know if you’re taking your meds, etc. 2016 is going to be interesting


The phrase “Brave New World” has become one of the most often used clichés in medical technology in recent years. Google the title of Aldous Huxley’s 1932 dystopian, and anticipatory, novel with the word medicine and 2,940,000 results appear.

But could there be better shorthand to describe some of the recent developments in medical, health and bio-tech? Consider these possibilities coming to fruition, or close to, in 2016:

1. Back from Extinction

Gene-editing startup Editas Medicine of Cambridge, Mass., filed to go public this month. The company’s founder, Harvard professor George Church, hopes to, among other things, revive the extinct woolly mammoth or create a facsimile. Investors include Google and Bill Gates.

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It’s not always talked about in polite company, but your body produces a lot of gases scientists know little about.

A new smart pill, designed at Melbourne’s RMIT University, could help us learn more and may eventually assist in customising what we eat to suit our bodies.

Researchers from the Centre for Advanced Electronics and Sensors have developed the pill, which can measure intestinal gases, and they have now undertaken the first animal tests using the technology to examine the impact of fibre on the gut.

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ProfusaLast week at CES, South San Francisco based Profusa showed off an upcoming injectable sensor that can be used to continuously monitor oxygen levels in tissue. Measuring only five millimeters long and a tiny 250 microns in diameter, the biosensor can be injected into tissue with just a hypodermic needle. It consists of a soft hydrogel scaffold that allows it to be biologically compatible with the surrounding tissue without any foreign body response. The sensor also contains a special chemical marker that changes fluorescence depending on the amount of oxygen that reacts with it. An optical reader placed on the skin measures the fluorescence and relays the data to a smartphone. The biosensor can last as long as two years (at which point the chemical marker begins to lose its potency), and because it contains no electronics and is completely biocompatible there’s no need to remove it.

On stage at the CES Digital Health Summit, Profusa CEO Dr. Ben Hwang gave a live demonstration of how the sensor works in action. As two of his colleagues with the sensors implanted and using a blood pressure cuffs performed stretches to simulate changes in blood flow, a graph displayed the live view of the changing tissue oxygen levels at the site of the sensors.

We had the opportunity to talk to Dr. Hwang after his talk, and he shared that the first application of the sensor is the Lumee Oxygen Sensing System, which is designed to monitor oxygen levels during the wound healing process. Sufficient oxygen flow through a wound is vital to the healing process, and Lumee can detect low oxygen levels early in the healing process and even before treatment or surgery begins.

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Insertables are here! They are a new class of devices that go literally under your skin! Heffernan, Vetere, and Chang from the University of Melbourne discuss what they are, what they could be used for, their risks and the challenges for the HCI community. Fascinating! @kaylajheffernan # insertables #hci # wearables

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Loving the progress around Quantum.


Today, a group of scientists — John A. Rogers, Eric Seabron, Scott MacLaren and Xu Xie from the University of Illinois at Urbana-Champaign; Slava V. Rotkin from Lehigh University; and, William L. Wilson from Harvard University — are reporting on the discovery of an important method for measuring the properties of nanotube materials using a microwave probe. Their findings have been published in ACS Nano in an article called: “Scanning Probe Microwave Reflectivity of Aligned Single-Walled Carbon Nanotubes: Imaging of Electronic Structure and Quantum Behavior at the Nanoscale.”

The researchers studied single-walled carbon nanotubes. These are 1-dimensional, wire-like nanomaterials that have electronic properties that make them excellent candidates for next generation electronics technologies. In fact, the first prototype of a nanotube computer has already been built by researchers at Stanford University. The IBM T.J. Watson Research Center is currently developing nanotube transistors for commercial use.

For this study, scientists grew a series of parallel nanotube lines, similar to the way nanotubes will be used in computer chips. Each nanotube was about 1 nanometer wide — ten times smaller than expected for use in the next generation of electronics. To explore the material’s properties, they then used microwave impedance microscopy (MIM) to image individual nanotubes.

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An Aging Suit: This Exoskeleton lets you know what it feels like to get older.

Interesting use of the latest tech being shown at the largest consumer electronics show in the world CES 2016.


Iyaz Akhtar donned a 40-pound suit complete with a helmet to find out what it’s like to live with the physical pain that comes with ageing.

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“Apple Inc. has purchased Emotient Inc., a startup that uses artificial-intelligence technology to read people’s emotions by analyzing facial expressions.”

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Intel’s collaboration with eyewear maker Luxottica will launch its first product later this year, with the release of special smart glasses designed for athletes.

Intel showed off the technology, which it called Radar Pace, on stage at the Consumer Electronics Show in Las Vegas on Tuesday night. The wearable tech will apparently be available in sunglasses made by the Luxottica-owned Oakley brand.

During a video and on-stage demo, Intel showed how the Oakley glasses, equipped with special earpieces on either side, allowed an athlete to quickly track workout information like the speed and distance travelled while running. The tech is entirely voice-activated. Unlike Google Glass, which requires that users swipe the side of the headset to do certain things, the Radar Pace technology lets the wearer do everything just by talking.

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