Lifeboat Foundation: Safeguarding Humanity
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One of the biggest challenges will be to create superpositions of diamonds that can remain stable over distances of a meter. More than four years ago researchers at Stanford University managed to separate a superposition consisting of 10000 atoms by about half a meter—the current record. “But we’re talking about doing it with diamonds that would have a billion or 10 billion atoms, and that is way more difficult,” Mazumdar says.

Many of the other technologies needed for the device—high vacuums, ultralow temperatures, precisely controlled magnetic fields—have all been achieved separately by various groups. But bringing them together will not be easy. “Just because you can juggle and ride a bike doesn’t mean you can do both at once,” Morley says.

If the device is ever built, it could transform gravitational-wave astronomy. The world’s current gravitational-wave detectors are all firmly anchored to the ground. “The only orientation LIGO can have is due to Earth’s rotation,” Bose says. A small detector such as MIMAC, on the other hand, could be pointed at any direction in the sky. And any physics lab in the world could house it. “The challenge is to get one of them working,” Bose says. “If one of them works, it would be very easy to make several more.”

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Today at 1 PM PST.

On Sunday, February 212021, at 1 p.m. U.S. Pacific Time, the U.S. Transhumanist Party invites Dr. Aubrey de Grey of the SENS Research Foundation, for an in-depth conversation about recent developments in the quest to reverse the damage of biological aging. The discussion will cover current in rejuvenation research and advocacy, as well as delve into how the prospects for reaching longevity escape velocity have changed since Dr. de Grey’s remarks at the U.S. Transhumanist Party Discussion Panel on Life Extension nearly 4 years ago in 2017.

Dr. Aubrey de Grey is the biomedical gerontologist who researched the idea for and founded SENS Research Foundation — http://www.sens.org/. He received his BA in Computer Science and Ph.D. in Biology from the University of Cambridge in 1985 and 2000, respectively. Dr. de Grey is Editor-in-Chief of Rejuvenation Research, is a Fellow of both the Gerontological Society of America and the American Aging Association, and sits on the editorial and scientific advisory boards of numerous journals and organizations.

Continue reading “U.S. Transhumanist Party Virtual Enlightenment Salon with Aubrey de Grey” | >

555-million-year-old oceanic creatures share genes with today’s humans, finds a new study.

As complex as modern humans can get, they still retain some features of the earliest animals on Earth. According to new research, we are not as different as we might think from strange prehistoric organisms that didn’t have any heads, arms, legs, or skeletons.

A study from UC Riverside identified 555-million-year-old oceanic creatures that share genes with humans and other contemporary animals.

The paper’s co-author, UC Riverside geology professor Mary Droser, thinks the animals of the so-called Ediacaran era, which lasted from 571 million to 539 million years ago, were almost nothing like creatures of today.

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I will look at the idea that all disease could be almost stopped in its tracks with a universal treatment for aging. A lot of people ask when we will cure aging and the answer is it may well be here sooner than many realise.

It doesn’t matter how good the treatments are that we develop for cancer, heart disease, alzheimers, and any other of a number of the most common ways we finally die, it is really just a game of whack a mole. If you survive one, just wait a few years and another will get you.

And they cost society, both socially and economically on a massive scale.

Does that sound morbid, sad, as if it is all just pointless?

Continue reading “An End To Aging — The Mother Of All Disease” | >

“Ahsan Noor Khan, a PhD student and first author of the study, said: “We’re now looking to investigate how we could use low-cost existing systems, such as Wi-Fi routers, to detect emotions of a large number of people gathered, for instance in an office or work environment.” Among other things, this could be useful for HR departments to assess how new policies introduced in a meeting are being received, regardless of what the recipients might say. Outside of an office, police could use this technology to look for emotional changes in a crowd that might lead to violence.”

Research from the UK and an update from Elon Musk on human trials at his brain interface company show software is now eating the mind.

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In comments to City Council last year about APD’s intellectual property enforcement grant, I warned council that one thing I was concerned about was that APD might try to confiscate/remove activist videos by issuing takedown notices for copyrighted music playing in the background of the videos. Looks like I was right to be worried.

In at least three cases, Beverly Hills Cops have started playing music seemingly to prevent themselves from being filmed by an activist.

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The case (or not) for life in the clouds of Venus, re-evaluated 7 months after the initial claimed detection of phosphine in its atmosphere.

The possible detection of the biomarker of phosphine as reported by Greaves et al. in the Venusian atmosphere stirred much excitement in the astrobiology community. While many in the community are adamant that the environmental conditions in the Venusian atmosphere are too extreme for life to exist, others point to the claimed detection of a convincing biomarker, the conjecture that early Venus was doubtlessly habitable, and any Venusian life might have adapted by natural selection to the harsh conditions in the Venusian clouds after the surface became uninhabitable. Here, I first briefly characterize the environmental conditions in the lower Venusian atmosphere and outline what challenges a biosphere would face to thrive there, and how some of these obstacles for life could possibly have been overcome.

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The Ph.D. thesis by Daniel Teso-Fernández de Betoño of the UPV/EHU Faculty of Engineering in Vitoria-Gasteiz has resulted in a mobile, collaborative platform capable of performing tasks in motion at the Mercedes-Benz plant in the capital of Alava. The research opens up a new field for improving the ergonomics of these workstations and for the robot and human to collaborate by performing tasks together.

The idea of collaborative robotics with autonomous navigation to perform screwdriving tasks in motion emerged at the Mercedes-Benz plant in Vitoria-Gasteiz. To develop his Ph.D. thesis, Daniel Teso-Fernández de Betoño sought to investigate, develop and implement an adequate, efficient technology within the lines of work, and which would cooperate with the workers.

On the Mercedes-Benz final assembly lines, the vast majority of tasks require manual operations. It is also an area where everything is in motion, which means that not all types of people can opt to work in these spaces.

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