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Archive for the ‘mobile phones’ category: Page 210

Jun 8, 2016

Your phone may soon sense everything around you

Posted by in categories: augmented reality, mobile phones

SAN FRANCISCO (AP) — Suppose your smartphone is clever enough to grasp your physical surroundings — the room’s size, the location of doors and windows and the presence of other people. What could it do with that info?

We’re about to get our first look. On Thursday, Lenovo will give consumers their first chance to buy a phone featuring Google’s 3-year-old Project Tango, an attempt to imbue machines with a better understanding about what’s around them.

Location tracking through GPS and cell towers tells apps where you are, but not much more. Tango uses software and sensors to track motions and size up the contours of rooms, empowering Lenovo’s new phone to map building interiors. That’s a crucial building block of a promising new frontier in “augmented reality,” or the digital projection of lifelike images and data into a real-life environment.

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Jun 8, 2016

Future humans: Immortal, jobless and genius

Posted by in categories: augmented reality, biotech/medical, computing, cyborgs, drones, internet, life extension, mobile phones, virtual reality

What will we do when money has no meaning? And if everyone gets life extension what will today’s mega rich think and/or do about it?


May you live in interesting times – A curse, origin unknown

One of the ‘curses’ usually attributed to ancient China, but frequently thrown around in today’s society is ‘May you live in interesting times’, suggesting that living in turbulent times, no matter the cause, is somehow a bad thing.

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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.

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Jun 6, 2016

Walking and talking behaviors may help predict epidemics and trends

Posted by in categories: biotech/medical, information science, mathematics, mobile phones

Wow!


Mobile phone data may reveal an underlying mathematical connection between how we move and how we communicate that could make it easier to predict how diseases—and even ideas—spread through a population, according to an international team of researchers.

“This study really deepens our quantitative understanding of human behavior,” said Dashun Wang, assistant professor of and technology, Penn State. “We would like to think that we control our own behavior and we can do what we want to do. But, what we are starting to see with is that there is a very deep regularity underlying much of what we do.”

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Jun 6, 2016

Quantum Computing And How You Can Get Involved Now

Posted by in categories: business, computing, education, mobile phones, quantum physics

Change is coming; will you be ready?
I remember many decades ago when folks were trying to learn a new OS that changed businesses, governments/ educational institutions, and households around the world. That OS was called Windows; and hearing the stories as well as watching people try to use a PC and a mouse was interesting then.

Now, the world will again go through a large scale metamorphosis again when more and more QC is evolved and made available over the next 5 to 7 years in the technology mainstream. Change is often necessary and often can be good as well.


You might ask yourself, “What is quantum computing, and how do I get involved?”

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Jun 5, 2016

Russian hi-tech spy devices under attack over privacy fears

Posted by in categories: business, mobile phones, security

New Russian technologies, including phonecall interception and a facial recognition app, have stirred a fierce debate about privacy and data monitoring.

Infowatch, a Moscow-based IT security company managed by businesswoman Natalya Kasperskaya, found itself in hot water last month after it revealed it had invented a system that companies can use to intercept employees’ mobile phone conversations.

Companies outside Russia have also devised call interception software, and Infowatch already markets products that monitor employees’ e-mails, USB keys and printers.

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Jun 4, 2016

A Camera Lens Breakthrough Could See Smartphones Outperforming DSLRs

Posted by in categories: electronics, mobile phones

If you’ve ever held a high-quality camera lens, the first thing you notice is the weight. Thanks to layers and layers of thick glass hunks inside, they end up being very heavy. However, thanks to research being done at Harvard on something called metalenses, one day those mgiant glass-filled lenses might be obsolete.

The curved surfaces on a glass lens focus incoming light onto a camera’s digital sensor. The more precise (and expensive) the lens is, the better the image it will produce.

Metalenses work in a similar way, but they’re not made of precision-ground glass. Instead, a layer of transparent quartz is completely covered in a layer of tiny towers made from titanium dioxide. When arranged in specific patterns, those complex tower arrays can focus light exactly like a glass lens does. Except that these tiny metalenses end up being thinner than a human hair, and weigh almost nothing.

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Jun 3, 2016

Scalable semipolar gallium nitride templates for high-speed LEDs

Posted by in categories: materials, mobile phones

Nice!


Metal organic vapor phase deposition on etched 4-inch-diameter sapphire wafers is used to create low-defect-density gallium nitride templates.

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Jun 2, 2016

Intel’s new consumer head dreams of building JARVIS

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

Intel is in the midst of its biggest business transition ever. Just a few months ago, the chip giant announced that it would be laying off 11,000 workers and taking a step away from the PC market. Instead, it’ll be focusing on wearables and IoT devices. Coinciding with those announcements was an executive shuffle that put Navin Shenoy, its Mobile Client VP, in charge of its wider Client Computing Group (which covers all consumer devices). At Computex this week, we had a chance to pick Shenoy’s brain about Intel’s path forward.

Taiwan Computex

What do you envision being the next major breakthrough for PC form factor?

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Jun 1, 2016

Solid-state physics: Probing the geometry of energy bands

Posted by in categories: computing, mobile phones, particle physics, quantum physics

Scientists at Ludwig-Maximilians-Universitaet (LMU) in Munich and the Max Planck Institute for Quantum Optics (MPQ) have devised a new interferometer to probe the geometry of band structures.

The geometry and topology of electronic states in solids play a central role in a wide range of modern condensed-matter systems, including graphene and topological insulators. However, experimentally accessing this information has proven to be challenging, especially when the bands are not well isolated from one another. As reported by Tracy Li et al. in last week’s issue of Science (Science, May 27, 2016, DOI: 10.1126/science.aad5812), an international team of researchers led by Professor Immanuel Bloch and Dr. Ulrich Schneider at LMU Munich and the Max Planck Institute of Quantum Optics has devised a straightforward method with which to probe band geometry using ultracold atoms in an optical lattice. Their method, which combines the controlled transport of atoms through the energy bands with atom interferometry, is an important step in the endeavor to investigate geometric and topological phenomena in synthetic band structures.

A wide array of fundamental issues in condensed-matter physics, such as why some materials are insulators while others are metals, can be understood simply by examining the energies of the material’s constituent electrons. Indeed, band theory, which describes these electron energies, was one of the earliest triumphs of quantum mechanics, and has driven many of the technological advances of our time, from the computer chips in our laptops to the liquid-crystal displays on our smartphones. We now know, however, that traditional band theory is incomplete.

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