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Mar 17, 2016

Michelin’s Newest Airless Tires Are A Breakthrough Innovation

Posted by in category: innovation

F you haven’t experienced a flat tire then you are lucky, but for those of us who have we understand all too well the hassle of changing a flat tire and airing one back up. In this video we get introduced to the new innovative Michelin Airless Tires that are able to drive on every possible terrain!

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Mar 17, 2016

Hankook’s Revolutionary Airless i-Flex Tire

Posted by in category: transportation

IFlex — Airless Tire


Hankook’s Revolutionary Airless i-Flex Tire is Puncture-Proof and 95% Recyclable.

#Hankook #iFlex #Tire

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Mar 17, 2016

Why AlphaGo Is Not AI

Posted by in category: robotics/AI

“There is no AI without robotics… This realization is often called the ‘embodiment problem’ and most researchers in AI now agree that intelligence and embodiment are tightly coupled issues. Every different body has a different form of intelligence, and you see that pretty clearly in the animal kingdom.”


Google DeepMind’s artificial intelligence AlphaGo is a big advance but it will not get us to strong AI.

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Mar 17, 2016

Don’t Turn Away From the Art of Life — By Arnold Weinstein | The New York Times

Posted by in categories: education, philosophy

23edweinsteinart-master675

“In a letter written in 1871, the Symbolist poet Arthur Rimbaud uttered a phrase that announces the modern age: “‘Je’ est un autre” (“‘I’ is someone else”). Some 69 years later I entered the world as an identical twin, and Rimbaud’s claim has an uncanny truth for me, since I grew up being one of a pair. Even though our friends and family could easily tell us apart, most people could not, and I began life with a blurrier, more fluid sense of my contours than most other folks.”

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Mar 17, 2016

Remarkable nanowires could let computers of the future grow their own chips

Posted by in categories: computing, engineering, materials, mobile phones, nanotechnology, particle physics, robotics/AI

Now, we’re hitting Terminator mode with this.


If you’re worried that artificial intelligence will take over the world now that computers are powerful enough to outsmart humans at incredibly complex games, then you’re not going to like the idea that someday computers will be able to simply build their own chips without any help from humans. That’s not the case just yet, but researchers did come up with a way to grow metal wires at a molecular level.

At the same time, this is a remarkable innovation that paves the way for a future where computers are able to create high-end chip solutions just as a plant would grow leaves, rather than having humans develop computer chips using complicated nanoengineering techniques.

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Mar 17, 2016

How Do You Teach a Robot Right From Wrong? Story Time

Posted by in category: robotics/AI

If you want to teach a robot about morality, it turns out stories are a great medium for communicating social values.

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Mar 17, 2016

This Amazing Computer Chip Is Made of Live Brain Cells

Posted by in categories: neuroscience, supercomputing

A few years ago, researchers from Germany and Japan were able to simulate one percent of human brain activity for a single second. It took the processing power of one of the world’s most powerful supercomputers to make that happen.

Hands down, the human brain is by far the most powerful, energy efficient computer ever created.

So what if we could harness the power of the human brain by using actual brain cells to power the next generation of computers?

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Mar 17, 2016

New Physics Research Findings Reported from Hitachi (Quasi-Adiabatic Quantum Computing Treated with c-Numbers Using the Local-Field Response)

Posted by in categories: computing, quantum physics

More insights on a more controlled Quantum.


By a News Reporter-Staff News Editor at Physics Week — New research on Physics Research is the subject of a report. According to news reporting from Tokyo, Japan, by VerticalNews editors, the research stated, “A computational method called the local-field response method is proposed, where spins evolve by responding to an effective field consisting of gradually decreasing external fields and spin-spin interactions, similarly to what is carried out in adiabatic quantum computing (AQC). This method is partly quantum-mechanical.”

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Mar 17, 2016

Necrogenomics: Gathering DNA From the Dead to Improve the Lot of the Living

Posted by in categories: biotech/medical, health

This one kind of gives me the heebie geebies.


DNA sequencing of the deceased could lead to a number of advances in health care. A group of scientists in Denmark have launched a proposal to create the world’s first national necrogenomic database.

The idea that dead men tell no tales is about to be seriously put to shame, should a newly suggested DNA registry in Denmark become reality.

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Mar 17, 2016

Rapid Superconducting Memory Cell Control System Developed

Posted by in categories: computing, information science, materials, quantum physics

“With the operational function that we have proposed in these memory cells, there will be no need for time-consuming magnetization and demagnetization processes. This means that read and write operations will take only a few hundred picoseconds, depending on the materials and the geometry of the particular system, while conventional methods take hundreds or thousands of times longer than this,” said the study author Alexander Golubov, the head of Moscow Institute of Physics and Technology (MIPT)’s Laboratory of Quantum Topological Phenomena in Superconducting Systems.

Golubov and colleagues at Moscow State University have proposed creating basic memory cells based on quantum effects in superconductor “sandwiches.” Superconductors were predicted in the 1960s by the British physicist Brian Josephson. The electrons in these “sandwiches,” called “Josephson junctions,” are able to tunnel from one layer of a superconductor to another, passing through the dielectric like balls passing through a perforated wall.

Today, Josephson junctions are used both in quantum devices and conventional devices. For example, superconducting qubits are used to build the D-wave quantum system, which is capable of finding the minima of complex functions using the quantum annealing algorithm. There are also ultra-fast analogue-to-digital converters, devices to detect consecutive events, and other systems that do not require fast access to large amounts of memory. There have also been attempts to use the Josephson Effect to create ordinary processors. An experimental processor of this type was created in Japan in the late 1980s. In 2014, the research agency IAPRA resumed its attempts to create a prototype of a superconducting computer.

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