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A woman living on a dialysis machine is grown a new kidney using her own cells. A father struggling with age-related vision loss has his eyesight restored. A soldier suffers extensive burns and has his skin regenerated.

This is a glimpse of the holy grail of regenerative medicine. The ultimate goal of the field is to develop therapies that restore normal function to diseased tissues and organs. Advances in 3D bioprinting, the process of fabricating functional human tissue outside the body in a layer-by-layer fashion, have pushed the envelope on what is considered possible in the field.

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Star physicist Stephen Hawking has reiterated his concerns that the rise of powerful artificial intelligence (AI) systems could spell the end for humanity.

Speaking at the launch of the University of Cambridge’s Centre for the Future of Intelligence on 19 October, he did, however, acknowledge that AI equally has the potential to be one of the best things that could happen to us.

So are we on the cusp of creating super-intelligent machines that could put humanity at existential risk?

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What I don’t understand is why haven’t we seen and experienced much media news, radio, etc. enhanced and even in some cases new desk people, etc. replaced by AI technology especially with how we can emulate a person in AI tech not to mention AR/ VR technology. Could we see a Bill O’Riely, or Megan Kelly, or MSNBC, etc. replaced by AI in the coming 3 to 5 years? Most definitely radio should consider.

If you’re reading about the US election, some of that news is likely to come to you from a “bot.”

Automated systems known as “bots” or “robo-journalism” have been around for years, but they are playing a bigger role in coverage this year amid technology advances and stretched media resources.

The New York Times, Washington Post, CNN, NBC, Yahoo News and the non-profit Pro Publica are among using automated technology or messaging bots for coverage in the runup to Tuesday’s vote or on election night.

Continue reading “‘Bots’ step up for 2016 election news coverage” | >

Congrats geordie rose and jeremy hilton ; d-wave ROCKS!

News posting on T-Net)

Burnaby, BC, November 4, 2016—(T-Net)—D-Wave Systems Inc., the world’s first quantum computing company, announced the promotion of Jeremy Hilton to senior vice president, systems, with responsibility for driving the company’s quantum processor and systems research and engineering functions.

Hilton, who was previously the vice president of processor development, joined D-Wave in 2000, and has been instrumental in developing the world’s first scalable quantum processors. Hilton also led the development of D-Wave’s superconducting integrated circuit foundry. He is a named inventor on 34 granted U.S. patents.

“Jeremy has almost two decades of experience developing the most advanced scalable quantum computing systems in the world. We’re lucky to have him on the team,” said CEO Vern Brownell.

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2 key areas to never lose focus on when it comes to NextGen tech — Biocomputing and QC. I also would add that what we have been seeing in crystalized formations found synthetic diamonds and other structures is a core piece as well.

EMN is a world-class collective of award-winning journalists and researchers whose mission is to be the leading online live streaming news network for alternative news and information. This news and research-driven force will be the recognized source for inquiring minds. From the paranormal to the supernormal, inner space to outer space, whether groundbreaking scientific discoveries or research into the world of the unexplained; EMN is the gateway for inquiring minds uniting a formidable community of truth-seekers worldwide led by the most respected industry leaders committed to the highest level of integrity.

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Atoms, photons, and other quantum particles are often capricious and finicky by nature; very rarely at a standstill, they often collide with others of their kind. But if such particles can be individually corralled and controlled in large numbers, they may be harnessed as quantum bits, or qubits — tiny units of information whose state or orientation can be used to carry out calculations at rates significantly faster than today’s semiconductor-based computer chips.

In recent years, scientists have come up with ways to isolate and manipulate individual quantum particles. But such techniques have been difficult to scale up, and the lack of a reliable way to manipulate large numbers of atoms remains a significant roadblock toward quantum computing.

Now, scientists from Harvard and MIT have found a way around this challenge. In a paper published in the journal Science, the researchers report on a new method that enables them to use lasers as optical “tweezers” to pick individual atoms out from a cloud and hold them in place. As the atoms are “trapped,” the scientists use a camera to create images of the atoms and their locations. Based on these images, they then manipulate the angle of the laser beams, to move individual atoms into any number of different configurations.

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All right, who’s up for sum geeky stuff? Well if yes, you’ve just landed on the right corner of the WorldVillage. This is video about what might the quantum mechanics looks like.

This smart dude here uses some silicone droplets and hopefully this might help us unlock some of the questions about one of the biggest question marks in Physics- Quantum Mechanics. Enjoy!

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