Lifeboat Foundation

Everyone today claims they are a digital disruptor or have AI; even if they have call forwarding on their Skype phone thay claim to have AI. So, I do believe there do needs to be better standardized definitions around some of these terms in order to keep confusion down plus not comprimise the real value that these areas bring into the marketplace.

When we talk about artificial intelligence (AI) — which we have done lot recently — what do we actually mean? AI experts and philosophers are beavering away on the issue. But having a usable definition of AI – and soon — is vital for regulation and governance because laws and policies simply will not operate without one.

Creepy robots image from Shutterstock.

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Apple has been awarded a new patent for an iPhone that can dry and heal itself. Apple has been awarded a new patent for an iPhone that can dry and heal itself.

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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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Facebook Messenger now has 800 million monthly active users, and it’s a sign that phone numbers will soon disappear, the company says.

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Remember when a cheap $60 wireless router was all your home needed? We were so naive back then. When everything from your phone to your fridge is on your home network, you need a little more wi-fi horsepower. So TP-Link is introducing the first wireless router with blazing 802.11ad.

For the uninitiated, the 802.11ad protocol adds yet another band of spectrum in the 57-66GHz range (depending on what part of the world you live in) in addition to the 2.4GHz and 5GHz bands that 802.11ac routers use now.

There’s quite a few technical reasons as to why the jump to 60GHz is a good thing, but the most important for the average consumer is speed. The 5GHz band maxes out at 1,733Mbps, but the new 60GHz band can achieve wireless transfer speeds of up to 4,600Mbps. So streaming 4K video without a network cable? Not a problem.

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Your favorite films just got a lot shorter.

Free CHTV video podcast on iTunes:
http://phobos.apple.com/WebObjects/MZStore.woa/wa/viewPodcast?id=268957390

Continue reading “If All Movies Had Cell Phones” »

LG Display has a prototype 18-inch screen it’s showing off at the Consumer Electronics Show this week that rolls up like a piece of paper. The technology builds on LG’s forward-looking OLED work focusing on bendable, rollable, and curving displays. The company showed similar technology last year as a proof of concept, but kept images behind closed doors. Now LG looks ready to show the world.

We’ve seen this type of concept display from the likes of Sony, Samsung, Sharp, and others in the past. However, it does indicate that LG sees these types of futuristic displays as differentiation points for smartphones, tablets, and TVs. LG envisions these types of screens rolling up into our pockets or being made to wrap around interior spaces, and the company will show off a 25-inch curved screen installed on the inside of a car at its Auto Zone section on the show floor.

We’ll get a closer look at the newspaper-like screen in a couple of days, as well as a new 55-inch “paper thin” TV that has all its electronics installed independently, according to LG. So check back in with The Verge for LG coverage and everything else CES-related throughout the week.

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Andrew Ng hands me a tiny device that wraps around my ear and connects to a smartphone via a small cable. It looks like a throwback—a smartphone earpiece without a Bluetooth connection. But it’s really a glimpse of the future. In a way, this tiny device allows the blind to see.

Ng is the chief scientist at Chinese tech giant Baidu, and this is one of the company’s latest prototypes. It’s called DuLight. The device contains a tiny camera that captures whatever is in front of you—a person’s face, a street sign, a package of food—and sends the images to an app on your smartphone. The app analyzes the images, determines what they depict, and generates an audio description that’s heard through to your earpiece. If you can’t see, you can at least get an idea of what’s in front of you.

Artificial intelligence is changing not only the way we use our computers and smartphones but the way we interact with the real world.

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The dream of melding biological and man-made machinery is now a little more real with the announcement that Columbia Engineering researchers have successfully harnessed a chemical energy-producing biological process to power a solid state CMOS integrated circuit.

According to study lead professor Ken Shepard, this is the world’s first successful effort to isolate a biological process and use it to power an integrated circuit, much like the ones we use in phones and computers.

The researchers developed the system by using an artificially created lipid bilayer membrane containing naturally occurring ion pumps, which are powered by the biological world’s “energy currency molecule,” ATP (adenosine triphosphate). ATP is the coenzyme that transfers chemical energy between living cells. It is an end product of processes such as photosynthesis and cellular respiration, and it powers the mechanical work of living systems such as cell division and muscle contraction.

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