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There is only 2 avenues that “terminator robots” will exist: 1) criminals and terrorists have their followers/ pay some engineers to reprogram the robots and equip them to kill or explode themselves 2) a rogue nation like N. Korea decides to acquire (if not build) and regineer them to kill and deploys them on their neighbors, etc. The reality is robotics and humanoid robotics is even more complex; chances of this happening may be at a 20 to 30% range (if I was to take a guess).


So often Hollywood serves as a sort of idea test-bed for futuristic scientific concepts that often have a habit of becoming reality, but back in 1984 when The Terminator was released, hardly anyone believed that “killer robots” would someday become a reality.

But today, as robotics becomes a much more mature scientific field of study, the possibility that governments or private entities could “program” killer robots to take out certain targets or even entire populations is not so far-fetched anymore. In fact, it’s downright chilling.

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Very nice.


Quantum physicist Mario Krenn and his colleagues in the group of Anton Zeilinger from the Faculty of Physics at the University of Vienna and the Austrian Academy of Sciences have developed an algorithm which designs new useful quantum experiments. As the computer does not rely on human intuition, it finds novel unfamiliar solutions. The research has just been published in the journal Physical Review Letters. The idea was developed when the physicists wanted to create new quantum states in the laboratory, but were unable to conceive of methods to do so. “After many unsuccessful attempts to come up with an experimental implementation, we came to the conclusion that our intuition about these phenomena seems to be wrong. We realized that in the end we were just trying random arrangements of quantum building blocks. And that is what a computer can do as well — but thousands of times faster”, explains Mario Krenn, PhD student in Anton Zeilinger’s group and first author research.

After a few hours of calculation, their algorithm — which they call Melvin — found the recipe to the question they were unable to solve, and its structure surprised them. Zeilinger says: “Suppose I want build an experiment realizing a specific quantum state I am interested in. Then humans intuitively consider setups reflecting the symmetries of the state. Yet Melvin found out that the most simple realization can be asymmetric and therefore counterintuitive. A human would probably never come up with that solution.”

The physicists applied the idea to several other questions and got dozens of new and surprising answers. “The solutions are difficult to understand, but we were able to extract some new experimental tricks we have not thought of before. Some of these computer-designed experiments are being built at the moment in our laboratories”, says Krenn.

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No Robots Please says Mercedes; at least for their manufacturing teams that does specialized/ custom work.


Our dystopian all-robot future just got hit with a minor setback: Mercedes-Benz is ditching some of its robot workers in favor of humans, citing the human ability to move faster and perform a wider array of tasks. The reason largely revolves around Mercedes’ increased array of customization options — there are so many different individualization options at the moment that robots aren’t able to deal with them all. Humans, the auto maker says, are saving the company money.

Mercedes’ individualization options include things like various tire valve caps, trim, and cupholders, small but significant aspects of the vehicles that robots aren’t easily able to switch between. According to Daimler AG’s Markus Schaefer, “The variety is too much to take on for the machines. They can’t work with all the different options and keep pace with changes.”

Robots are good at doing rote tasks — the same thing over and over again with an exact precision. While humans aren’t so good at that, they are better at adjusting to new demands — Daimler would have to deal with weeks of down time every time it needed to change the assembly and reprogram the robots, whereas humans can adjust to new demands in a single weekend.

African trypanosomiasis is called ‘sleeping sickness’ because when the infection is untreated, trypanosome parasites will invade the brain and cause disruption of sleeping patterns and irreversible neurological damage. A study published on February 25th in PLOS Pathogens reports that in a mouse model of trypanosome disease, nitric oxide (NO) plays an unexpected role in preserving the integrity of the blood brain barrier (BBB), thereby reducing parasite invasion into the brain, and likely limiting neurological damage.

NO is generally thought to be a pro-inflammatory signal, promoting a strong immune response against pathogens. The resulting inflammation is a mixed blessing: on one hand, it helps to control potentially dangerous pathogens, but on the other, it can cause “collateral damage” to the inflamed tissue.

Martin Rottenberg and colleagues, from the Karolinska Institute in Stockholm, Sweden, are interested in how trypanosome cause disease and in the host immune defense against them. In this study, they examine the role of NO in a of trypanosomiasis, with a focus on how the parasites manage to get through the so-called (BBB), the border surrounding the mammalian that is normally impenetrable to foreign intruders as well as most host cells.

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Interesting research and maybe a new twist for Dystonia.


Exactly what triggers dystonia — an involuntary muscle contraction of the hand, fingers, neck or mouth, which is sometimes very painful — is unclear. But some researchers think the underlying problem that causes it may also be the key to treating it, and other brain-linked disorders like Parkinson’s.

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Fifteen miles away from where Larry Page and Sergey Brin worked out of their first office developing the technology that would become Google, a team of eleven engineers no older than 20 are hard at work on developing what they hope will be its replacement.

Their adoptive home, for the moment, is the co-working space Tim Draper set up as part of his Draper University startup program, and they’ve been assembled their by Jerry Yue, a 24-year-old serial entrepreneur.

Yue’s last startup, the Chinese food delivery service Benlai.com, raised $100 million at the end of last year and is on its way to joining the ranks of China’s unicorns.

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Just Amazing


Ralph Mobbs, a neurosurgeon at the Prince of Wales Hospital in Sydney, made medical history in late 2015 when he successfully replaced two vertebrae with custom made prosthesis. The patient, in his 60s, suffered from Chordoma, a particularly nasty form of cancer that had formed on his top two vertebrae and threatened to cinch off his spinal cord as it grew. That would have left him a quadriplegic. Complicating matters, those top two vertebrae are what allow you to turn and tilt your head, so it’s not like doctors can easily fashion a replacement out of bone grafted from another part of the patient’s body. They have to fit perfectly and that’s where the 3D printers come in.

Mobbs worked with Anatomics, an Australian medical device manufacturer, to craft perfect replicas of the patient’s top two vertebrae out of titanium. This is the first time that these two particular neck bones have been printed and installed. “To be able to get the printed implant that you know will fit perfectly because you’ve already done the operation on a model … It was just a pure delight,” Mobbs told Mashable Australia. “It was as if someone had switched on a light and said ‘crikey, if this isn’t the future, well then I don’t know what is’.”

The surgery itself was no small feat. The 15-hour procedure is fraught with peril as the medical team operates within inches of the top of the spinal cord as well as the brainstem and numerous major arteries. “The surgery that we’re doing today is a particularly complicated and long and difficult surgery. It involves exposure at the top of the neck where the neck and the head meets,” Mobbs told ABC 7.30. “It’s essentially disattaching the patient’s head from his neck and taking the tumour out and reattaching his head back onto his neck.” Thankfully, the surgery was a success. Mobbs was able to remove the tumor and implant the prosthetic.