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Category: internet – Page 275

I do not think, at least at first, that any brain interfaces for the masses will be anything other than organic. Possibly a synthetic virus that can be inserted and removed without the invasion of instruments. Those things we might have to deal with either way are summarized here.

How closely will we live with the technology we use in the future? How will it change us? And how close is “close”? Ghost in the Shell imagines a futuristic, hi-tech but grimy and ghetto-ridden Japanese metropolis populated by people, robots, and technologically-enhanced human cyborgs.

Beyond the superhuman strength, resilience, and X-ray vision provided by bodily enhancements, one of the most transformative aspects of this world is the idea of brain augmentation, that as cyborgs we might have two brains rather than one. Our biological brain—the “ghost” in the “shell”—would interface via neural implants to powerful embedded computers that would give us lightning-fast reactions and heightened powers of reasoning, learning and memory.

Continue reading “Ghost in the Shell Thrills, But Ducks the Philosophical Questions Posed by a Cyborg Future” | >

Artificial intelligence has reached peak hype. News outlets report that companies have replaced workers with IBM Watson and that algorithms are beating doctors at diagnoses. New AI startups pop up everyday, claiming to solve all your personal and business problems with machine learning.

Ordinary objects like juicers and Wi-Fi routers suddenly advertise themselves as “powered by AI.” Not only can smart standing desks remember your height settings, they can also order you lunch.

Much of the AI hubbub is generated by reporters who’ve never trained a neural network and by startups or those hoping to be acqui-hired for engineering talent despite not having solved any real business problems. No wonder there are so many misconceptions about what AI can and cannot do.

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Artificial intelligence is not a vague concept we picked up from a science fiction novel. It is the single biggest technology trend since the Internet, and the money-making potential is huge.

Google, Amazon, and Microsoft are all ready to soar on the winds of change. Most people expect it to be a zero-sum game, but their varying strengths will allow them all to succeed.

Microsoft is likely going to own the enterprise segment. Amazon will probably win the consumer device fight, and Google could become a healthcare giant.

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Today a little history was made. Verizon and Korean Telecom (KT) unveiled the world’s first live hologram international call service via the companies’ trial 5G networks established in Seoul and in New Jersey, respectively. Our cover graphic shows Verizon CEO Lowell McAdam (left) and KT CEO Hwang Chang-gyu demonstrate a hologram video call on a tablet PC at the KT headquarters in central Seoul Monday.

In the demonstration, a KT employee held a meeting with a Verizon employee in New Jersey who appeared as a hologram image on a monitor in the KT headquarters building.

It was the world’s first successful end-to-end 5G network interworking, according to the two firms. Both 5G trial networks were deployed over a 28 GHz spectrum.

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Tencent, Asia’s second highest valued tech firm, has bought a five percent share in Tesla. According to a filing, the Chinese firm scooped up 8,167,for around $1.7 billion to become one of Tesla’s largest shareholders.

The news itself sent Tesla’s share price up three percent in pre-market trading. The purchase was arranged on March 17, and those now-Tencent-owned shares are worth around $2.2 billion at current market value.

Tencent is a prolific investor. It holds equity in Snap, this year’s hot tech IPO, among others following an early investment. While that interest in messaging makes sense since Tencent’s operates China’s dominant chat app — WeChat — it isn’t immediately clear whether the Tesla investment has strategic undertones. An alliance with Tencent could significantly boost Tesla’s efforts in China, which is already impressive. Chinese sales accounted for 15 percent of Tesla’s $7 billion revenue last year.

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Legal frameworks, regulations and standards under the topic Defending the Core.

2017 will focus on the fundamental aspects of cyber security with a theme of Defending the Core. The 9th International Conference on Cyber Conflict will be held in Tallinn from May 30 through June 2, 2017.

CyCon is organised by the NATO Cooperative Cyber Defence Centre of Excellence. Every year, over 500 decision-makers and experts from government, military and industry from all over the world approach the conference’s key theme from legal, technology and strategy perspectives, often in an interdisciplinary manner.

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Continue reading “Cycon: Taking place in Tallinn from May 30th to June 2nd 2017 2017 will cover issues ranging from international cooperation and conflict in cyberspace to technical challenges and requirements” | >

Chia-Chiunn Ho was eating lunch inside Facebook headquarters, at the Full Circle Cafe, when he saw the notice on his phone: Larry Zitnick, one of the leading figures at the Facebook Artificial Intelligence Research lab, was teaching another class on deep learning.

Ho is a 34-year-old Facebook digital graphics engineer known to everyone as “Solti,” after his favorite conductor. He couldn’t see a way of signing up for the class right there in the app. So he stood up from his half-eaten lunch and sprinted across MPK 20, the Facebook building that’s longer than a football field but feels like a single room. “My desk is all the way at the other end,” he says. Sliding into his desk chair, he opened his laptop and surfed back to the page. But the class was already full.

Internet giants have vacuumed up most of the available AI talent—and they need more.

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The Laser Communications Relay Demonstration (LCRD) will help NASA understand the best ways to operate laser communications systems. They could enable much higher data rates for connections between spacecraft and Earth, such as scientific data downlink and astronaut communications.

“LCRD is the next step in implementing NASA’s vision of using optical communications for both near-Earth and deep space missions,” said Steve Jurczyk, associate administrator of NASA’s Space Technology Mission Directorate, which leads the LCRD project. “This technology has the potential to revolutionize space communications, and we are excited to partner with the Human Exploration and Operations Mission Directorate’s Space Communications and Navigation program office, MIT Lincoln Labs and the U.S. Air Force on this effort.”

Laser communications, also known as optical communications, encodes data onto a beam of light, which is then transmitted between spacecraft and eventually to Earth terminals. This technology offers data rates that are 10 to 100 times better than current radio-frequency (RF) communications systems.

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