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Oct 9, 2019

Bio-Mimetic Real-Time Cortex Project — Whole Brain Emulation — Dr. Alice Parker — University of Southern California — ideaXme — Ira Pastor

Posted by in categories: big data, bioengineering, complex systems, driverless cars, drones, electronics, engineering, information science, neuroscience, robotics/AI

Oct 9, 2019

Did Our Universe’s Structure Grow From The Top-Down Or From The Bottom-Up?

Posted by in category: futurism

Or, quite possibly, is it more complex than either one of those scenarios?

Oct 9, 2019

Is Death Reversible?

Posted by in category: neuroscience

An experiment that partially revived slaughterhouse pig brains raises questions about the precise end point of life.

Oct 9, 2019

Watching This Volcano Erupt From Space Is Absolutely Epic

Posted by in category: space

The image above shows convection currents causing a vertical plume to rise above the volcano.

There are about 300 volcanoes in the surrounding areas according to NASA, roughly 29 of them active. The reason why there are so many is because the peninsula lies on top of a tectonic ridge where the Pacific plate is being pushed underneath the North American plate.

Oct 9, 2019

Brain tunes itself to criticality, maximizing information processing

Posted by in categories: biological, computing, neuroscience

Researchers long wondered how the billions of independent neurons in the brain come together to reliably build a biological machine that easily beats the most advanced computers. All of those tiny interactions appear to be tied to something that guarantees an impressive computational capacity.

Over the past 20 years, evidence mounted in support of a theory that the tunes itself to a point where it is as excitable as it can be without tipping into disorder, similar to a phase transition. This criticality hypothesis asserts that the brain is poised on the fine line between quiescence and chaos. At exactly this line, is maximized.

However, one of the key predictions of this theory—that criticality is truly a set point, and not a mere inevitability—had never been tested. Until now. New research from Washington University in St. Louis directly confirms this long-standing prediction in the brains of freely behaving animals.

Oct 9, 2019

Light 10 Billion Times Brighter Than the Sun Illuminates 2,000-Year-Old Herculaneum Scrolls

Posted by in categories: materials, neuroscience

Researchers led by the renowned ancient artifacts decoder, Professor Brent Seales, will be using Diamond, the UK’s national synchrotron science facility in the heart of Oxfordshire, to examine a collection of world-famous ancient artifacts owned by the Institut de France. Using this powerful light source and special techniques the team has developed, the researchers are working to virtually unwrap two complete scrolls and four fragments from the damaged Herculaneum scrolls. After decades of effort, Seales thinks the scans from Diamond represent his team’s best chance yet to reveal the elusive contents of these 2,000-year-old papyri.

Prof Seales is director of the Digital Restoration Initiative at the University of Kentucky (US), a research program dedicated to the development of software tools that enable the recovery of fragile, unreadable texts. According to Seales, Diamond Light Source is an absolutely crucial element in our long-term plan to reveal the writing from damaged materials, as it offers unparalleled brightness and control for the images we can create, plus access to a brain trust of scientists who understand our challenges and are eager to help us succeed.?Texts from the ancient world are rare and precious, and they simply cannot be revealed through any other known process. Thanks to the opportunity to study the scrolls at Diamond Light Source, which has been made possible by the National Endowment for the Humanities and the Andrew Mellon Foundation, we are poised to take a tremendous step forward in our ability to read and visualize this material.

Oct 9, 2019

First-of-Its-Kind Quantum Vibration Produced by Shooting a Laser at a Diamond

Posted by in categories: particle physics, quantum physics

Scientists have observed a quantum vibration at normal room temperature for the first time, a phenomenon that usually requires ultra-cold, carefully calibrated conditions – bringing us another step closer to understanding the behaviour of quantum mechanics in common materials.

The team was able to spot a phonon, a quantum particle of vibration generated from high-frequency laser pulses, in a piece of diamond. These phonons are notoriously hard to detect, partly because of their sensitivity to heat.

What makes observing a phonon so important is that it shows a vibration acting as a single unit of energy (as described by quantum mechanics), as well as a wave (as described by classical physics). At room temperature in open air conditions, it brings quantum behaviour “closer to our daily life” in the words of the researchers.

Oct 9, 2019

Financial services sector needs rewiring as digital assets gain greater institutional acceptance

Posted by in categories: economics, finance

Digital assets will only continue to grow. With clearer regulation coming in the near future, large financial institutions such as banks and asset managers will have the official ‘stamp of approval’ needed to participate in the market, driving tokenisation of existing asset classes and substantial capital inflows to the sector.


How investment in safekeeping technology will help determine the winners in Asia’s new token economy.

Oct 9, 2019

Cervical cancer ‘cure’ closer with gene-editing breakthrough, scientists say

Posted by in categories: bioengineering, biotech/medical, genetics

Queensland researchers say they can cure cervical cancer in mice using gene editing technology and are now working towards human trials.

Oct 9, 2019

Klotho: Queen of Anti-Aging Proteins

Posted by in categories: biotech/medical, life extension, neuroscience

Klotho, named after one of the Fates of Greek mythology, is the queen of anti-aging proteins. There are no close contenders at this time. Klotho gene therapy, like the one offered by Integrated Health Systems, has tremendous benefits. While it is produced primarily in the kidneys and brain, its soluble form circulates throughout the body. Many of the investigations so far have been done nephrologists interested in its prominent role in Chronic Kidney Disease (CKD), yet over the last decade its multifaceted role in the aging process has become a topic of intense research.

Klotho deficient mice show premature aging in multiple organs.

Inducing KL overexpression with a viral vector, like AAV, not only reverses this premature aging, but also enhances resistance to oxidative and ischemic damage. More impressive, KL outright extends the lifespans of mice, likely be inhibiting IGF and insulin signalling. Dubbed an “aging suppressor gene,” it can yield results similar to caloric restriction – what is, at this time, the most tried and true method of extending the lifespans of a variety of model organisms.