Lifeboat Foundation: Safeguarding Humanity
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Blog – Page 11230

Wall Street watchdogs turn to AI: System can scan markets and even chat rooms for rogue traders…

Artificial intelligence programs have beaten chess masters and TV quiz show champions. Next up: stock market cheats.

Two exchange operators have announced plans to launch artificial intelligence tools for market surveillance in the coming months and officials at a Wall Street regulator tell Reuters they are not far behind.

Executives are hoping computers with humanoid wit can help mere mortals catch misbehavior more quickly.

Continue reading “‘Siri, catch market cheats’: Wall Street watchdogs turn to A.I” | >

Bioquark Inc. (www.bioquark.com) mention on CNBC — the best way to make chemo easier is to eliminate the need for it forever!
recovering patient

Today I’m announcing a $100M commitment to Kernel in an effort to enhance human intelligence and reimagine our future. Unlocking our brain is the most significant and consequential opportunity in history — and it’s time sensitive.

We’re starting to identify the mechanisms underlying neural code and make them programmable. Our biology and genetics have become increasingly programmable; our neural code is next in line. Programming our neural code will enable us to author ourselves and our existence in ways that were previously unimaginable.

I started Kernel in 2016 (read more at the Washington Post) to build the world’s first neural prosthetic for human intelligence enhancement. The investment I’m making in Kernel today will expedite the development of this prosthetic and similarly transformative neurotechnologies.

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Rubik’s-cube-sized CubeSats are a nifty, cheap way for scientists to put a research vessel into space, but they’re limited to orbiting where they’re launched – until now. Los Alamos researchers have created and tested a safe and innovative rocket motor concept that could soon see CubeSats zooming around space and even steering themselves back to Earth when they’re finished their mission.

Consisting of modules measuring 10 × 10 × 11.35 cm (3.9 × 3.9 × 4.5 in), these mini-satellites first launched in 2003, but are currently lacking in propulsion because they’re designed to hitch a ride into space with larger, more expensive space missions. They’re usually deployed along with routine pressurized cargo launches, usually into low orbits that limit the kinds of studies that CubeSats can perform.

This limitation is, of course, frustrating for space researchers. In fact, the National Academy of Science recently identified propulsion as one of the main areas of technology that needs to be developed for CubeSats.

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About eight years ago, as the controversy about research involving human embryonic stem cells was winding down and Barack Obama was about to take office, I had one of my regular lunches with a respected conservative policy expert. We had come to be friends who respectfully disagreed about embryonic stem cell research and other bioethics issues.

That day I told him that there were still bigger issues brewing that involved human reproductive materials. For example, the opponents of research that involved destroying human embryos had celebrated a new technology developed in Japan that turned regular adult cells into something resembling potent embryonic cells. What many failed to notice is that that same technology could be used to turn adult cells into human egg cells. Thus in theory two men could produce a baby with the second man’s sperm and without a woman to provide an egg.

“Oh,” my friend said when I pointed this out to him, “I would definitely support federal legislation to prevent that.” I was struck at his vehemence, but not surprised.

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Crystals are defined by their repeating, symmetrical patterns and long-range order. Unlike amorphous materials, in which atoms are randomly packed together, the atoms in a crystal are arranged in a predictable way. Quasicrystals are an exotic exception to this rule. First discovered in 1982, their atoms pack together in an orderly fashion, but in a mosaic-like pattern that doesn’t repeat and can’t be predicted from a small sample.

Being able to map out the position of within a quasicrystal is a prerequisite for achieving a complete understanding of their structure and aids in designing them for specific applications, but conventional microscopy techniques don’t have the resolution to accomplish such a task.

In an effort to address this challenge, researchers from the University of Pennsylvania and the University of Michigan have engineered a quasicrystal that is formed by self-assembling nanoparticles, which are an order of magnitude larger than the atoms that comprise traditional quasicrystals. Their larger size enabled the team to use a suite of microscopy and simulation techniques to deduce, for the first time, the full three-dimensional configuration of a spontaneously formed quasicrystal.

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