AR glasses will be the new smartphone very soon.
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Category: mobile phones – Page 185
Japanese RIKEN researchers are trying to adapt existing the silicon metal–oxide–semiconductor field-effect transistors (MOSFETs) to integrate qubits with current electronics, offering the potential for scaling up quantum devices and bringing quantum computing closer to becoming a reality.
Keiji Ono and colleagues from the RIKEN Center for Emergent Matter Science and the Toshiba Corporation in Japan, in collaboration with researchers from the United States, are investigating the properties of qubits produced by imperfections or defects in silicon MOSFETs. In particular, they are exploring their potential for developing quantum computing devices that are compatible with current manufacturing technologies.
“Companies like IBM and Google are developing quantum computers that use superconductors,” explains Ono. “In contrast, we are attempting to develop a quantum computer based on the silicon manufacturing techniques currently used to make computers and smart phones. The advantage of this approach is that it can leverage existing industrial knowledge and technology.”
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Remember when Microsoft was actually aspiring to be mobile phone players? It seems like yesterday—but actually it was not so long ago. With the rise of the iPhone and flashy Android launches, the world got used to unsightly stats showing the Windows Phone dip.
While its drop of market share became evident, there is keen interest in whether or not Microsoft has ambitions as a comeback kid, not with a Windows Phone but with something now being rumored by watchers as a “Surface Phone”.
That probably explains why the “Hinge with free-stop function” patent filed this year has drawn a lot of interest among tech watchers when it surfaced on the World Intellectual Property Organization (WIPO) website.
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If you’re like most of our readers, you’re probably reading this right now on your mobile, which means there’s also a chance you’re reading it on a broken, fragmented phone screen.
Luckily, the days of squinting at cracked phone displays like this could soon be over, thanks to a team of Japanese scientists who have developed a new kind of self-healing glass that fuses itself back together, simply by pressure being applied.
The self-healing polymer, created by researchers at the University of Tokyo, was initially discovered by accident while they were studying new adhesives.
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IN AN AGE of nonstop breaches and hacks, getting a handle on your own digital security matters more than ever. But everyone has their own threat model—a set of concerns unique to themselves. The average smartphone user doesn’t need to know what a Faraday cage is; an NSA contractor probably already has a good grasp of security basics. (Or … do they?) In this guide, we’ve included a few ways to improve your online security posture based on those different levels of risk. These won’t prevent the next megabreach or banish ransomware from the earth. They’re not all-encompassing. But they’ll help get you in the mindset of the types of steps you should be taking based on your particular situation. And they’ll help ensure that the next time you read one of those paralyzing headlines, it doesn’t apply to you.
In an age of nonstop breaches and hacks, getting a handle on your own digital security matters more than ever. But everyone has their own threat model—a set of concerns unique to themselves. The average smartphone user doesn’t need to know what a Faraday cage is; an NSA contractor probably already has a good grasp of security basics. (Or … do they?) In this guide, we’ve included a few ways to improve your online security posture based on those different levels of risk. These won’t prevent the next megabreach or banish ransomware from the earth. They’re not all-encompassing. But they’ll help get you in the mindset of the types of steps you should be taking based on your particular situation. And they’ll help ensure that the next time you read one of those paralyzing headlines, it doesn’t apply to you.
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There are a lot of people in the world that need glasses on a daily basis. Despite their often expensive price tag, they do little more than correct poor eyesight. Let Glass updates glasses for the 21st century by integrating them with smart home connectivity.
While maintaining a slim form factor, Let Glass features audio entertainment, telephone communication, and voice interaction. Using Alexa and a built-in microphone, these frames allow users to control their smartphones without fumbling through their pockets. Simply tapping the legs of the smart glasses activate remote control functions, while voice commands handle everything else. In addition to Amazon Alexa, Apple Siri and Google Now are also supported.
Keeping with a traditional appearance, audio is produced using bone conduction technology. Instead of a speaker, the glasses vibrate the small bones in the ear to produce sound. This also keeps ears open to other noises, ensuring users remain aware of their surroundings. This allows users to listen to music, track activity, use voice navigation, call a friend, and more.
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Researchers at the Samsung Advanced Institute of Technology (SAIT) have managed to develop a “graphene ball” which could transform the way we think about batteries.
In a statement on Tuesday, South Korean tech giant Samsung described the graphene ball as a “unique battery material” which allows a 45 percent increase in capacity, as well as charging speeds that are five times faster than standard lithium-ion batteries.
In 2004 researchers at the University of Manchester, in England, managed to isolate graphene for the first time. According to the university, graphene is the thinnest material on the planet, is 200 times stronger than steel, transparent, and is also the world’s “most conductive material.”
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The international authorities overseeing the creation of a unified standard for 5G mobile technologies are expected to release the initial specifications next year and the final phase in 2019, paving the way for the commercial deployment of 5G services by mobile network operators from 2020.
China is one step closer to achieving the reality of seamless, super high speed communications that will enable driverless cars, virtual reality education and nationwide health care services after a partnership comprising China Mobile, Qualcomm and ZTE accelerated efforts to finalise technical standards for the next generation of smartphones.
With the world’s largest population and most number of internet users, China is making a huge bet that the wide roll-out of 5G mobile infrastructure by the country’s three main telecommunications network operators would support the country’s rapid digital transformation – enabling a raft of advanced applications and services that were the stuff of science fiction just decades ago.
Shenzhen-based ZTE Corp and larger rival Huawei Technologies, two of the world’s biggest suppliers of telecommunications equipment used by mobile network operators, are currently leading the development and commercialisation of 5G-related technologies on the mainland.