Lifeboat Foundation: Safeguarding Humanity
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Category: mobile phones – Page 166

Biometric mobile wallets — payment technologies using our faces, fingerprints or retinas — already exist. Notable technology companies including Apple AAPL, +2.62% and Amazon AMZN, +0.26% await a day when a critical mass of consumers is sufficiently comfortable walking into a store and paying for goods without a card or device, according to Sinnreich, author of “The Essential Guide to Intellectual Property.”

Removing the last physical barrier — smartphones, watches, smart glasses and credit cards — between our bodies and corporate America is the final frontier in mobile payments. “The deeper the tie between the human body and the financial networks, the fewer intimate spaces will be left unconnected to those networks,” Sinnreich said.

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The second half of humanity is joining the internet. People in countries like India will change the internet, and it will change them. Read more from The Economist here: https://econ.st/2zVWeQQ

Click here to subscribe to The Economist on YouTube: https://econ.st/2xvTKdy

L.O. Two simple letters that marked one of the biggest changes in human history. In 1969 programmers were trying to type “login”.

50 years later and half the world is now online. But that half is primarily from the rich world. How will the second half of humanity coming online change the internet and how will the internet change them?

India’s internet penetration was pretty low until very recently with the launch of a new mobile network called Reliance Jio, with incredibly cheap phones and incredibly cheap data prices. Reliance Jio launched aggressively in 2016 offering subsidised handsets and free data to hook people in. India went from being a relatively expensive place to consume data to being the cheapest in the world. Prices crashed by 94%

Newer users in the developing world are browsing the internet in much the same way as people in the developed world.

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The Intertubes have been buzzing with news that a research team based at UC-Irvine has created a new type of energy storage device that can last for more than 100,000 charges. For all practical purposes, that counts as an infinite battery. Under real life conditions, such a battery would most likely outlive the device it powers, and it might even outlive the owner of the device as well.

The new battery is still in the early research stage, but if it pans out, it would have a significant impact on lifecycle and supply chain issues for the ballooning number of smart phones, electric vehicles, energy storage products, and countless other battery powered devices inhabiting the Earth.

energy storage breakthrough

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Shouldn’t the title just be “Engineer”? What an amazing product!

Roy Allela, a 25-year old engineer and inventor from Kenya, has found the ultimate solution to bridging the communication barrier between deaf and hearing people. He has invented the Sign-IO gloves that can translate signed hand movements to audible speech so deaf people can “talk” even to those who don’t understand sign language.

The Sign-IO gloves feature sensors mounted on each of the five fingers to determine its movements, including how much a finger is bent. The gloves are connected via Bluetooth to an Android app that Allela also invented which uses a text-to-speech function to convert the gestures to vocal speech.

Allela was inspired to create the gloves because he and his family struggled to communicate with his 6-year-old niece who was born deaf. “My niece wears the gloves, pairs them to her phone or mine, then starts signing and I’m able to understand what she’s saying. Like all sign language users, she’s very good at lip reading, so she doesn’t need me to sign back,” he said in an interview with The Guardian.

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Could physics help people with epilepsy? That’s the question tackled by Louis Nemzer, a physicist at Nova Southeastern University, in the September 2019 issue of Physics World magazine, which is out now in print and digital formats.

He thinks that machine learning and real-time monitoring of the brain could give people with epilepsy live information about how much at risk they are of an imminent seizure – and is even developing a smartphone app to help them in daily life.

Elsewhere in the issue, Peter Martin and Tom Scott from the University of Bristol describe how they’ve used drones to map radiation levels at the Chernobyl plant, which you can also read on this website from 2 September, while Kate Brown from the Massachusetts Institute of Technology examines the health impact of Chernobyl fall-out.

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Today, Google has revealed the key details that were conspicuously missing from its March announcement of the new Stadia game streaming service. Namely, what the heck we’re going to be able to play, how much we’ll pay, and when we can get started with the exciting new service — which beams high-end console and PC games to any Chrome web browser, Chromecast Ultra TV dongle or Pixel 3 smartphone from beefy new Google servers.

The short version: Google Stadia will launch in November, in 14 different territories including the US, UK and Canada, with at least 31 games from 21 different publishers, for an initial “Founder’s Edition” price of $130 for a hardware starter kit with three months of premium service, and $10 a month afterwards. There’s a separate free tier coming in 2020.

Pre-orders for the “Founder’s Edition” are now open, and I’ll explain what it is in a tad, but there’s something important you should know first.

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Light and sound waves are at the basis of energy and signal transport and fundamental to some of our most basic technologies—from cell phones to engines. Scientists, however, have yet to devise a method that allows them to store a wave intact for an indefinite period of time and then direct it toward a desired location on demand. Such a development would greatly facilitate the ability to manipulate waves for a variety of desired uses, including energy harvesting, quantum computing, structural-integrity monitoring, information storage, and more.

In a newly published paper in Science Advances, a group of researchers led by Andrea Alù, founding director of the Photonics Initiative at the Advanced Science Research Center (ASRC) at The Graduate Center, CUNY, and by Massimo Ruzzene, professor of Aeronautics Engineering at Georgia Tech, have experimentally shown that it is possible to efficiently capture and store a wave intact then guide it towards a specific location.

“Our experiment proves that unconventional forms of excitation open new opportunities to gain control over and scattering,” said Alù. “By carefully tailoring the time dependence of the excitation, it is possible to trick the wave to be efficiently stored in a cavity, and then release it on demand towards the desired direction.”

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Hacking the iPhone has long been considered a rarified endeavor, undertaken by sophisticated nation-states against only their most high-value targets. But a discovery by a group of Google researchers has turned that notion on its head: For two years, someone has been exploiting a rich collection of iPhone vulnerabilities with anything but restraint or careful targeting. And they’ve indiscriminately hacked thousands of iPhones just by getting them to visit a website.

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