Lifeboat Foundation: Safeguarding Humanity
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Blog – Page 11566

Starting today, it appears the US military will be testing a device or devices that will potentially jam GPS signals for six hours each day. We say “appears” because officially the tests were announced by the FAA but are centered near the US Navy’s largest installation in the Mojave Desert. And the Navy won’t tell us much about what’s going on.

The FAA issued an advisory warning pilots on Saturday that global positioning systems (GPS) could be unreliable during six different days this month, primarily in the Southwestern United States. On June 7, 9, 21, 23, 28, and 30th the GPS interference testing will be taking place between 9:30am and 3:30pm Pacific time. But if you’re on the ground, you probably won’t notice interference.

The testing will be centered on China Lake, California—home to the Navy’s 1.1 million acre Naval Air Weapons Center in the Mojave Desert. The potentially lost signals will stretch hundreds of miles in each direction and will affect various types of GPS, reaching the furthest at higher altitudes. But the jamming will only affect aircraft above 50 feet. As you can see from the FAA map below, the jamming will almost reach the California-Oregon border at 4o,000 feet above sea level and 505 nautical miles at its greatest range.

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Crowdfunding Campaign: https://www.lifespan.io/campaigns/the-major-mouse-testing-program/

We are testing a combination of compounds which clear out dysfunctional cells in the body, called Senolytics, to see if we can extend maximum lifespan and healthspan in mice. Please subscribe, share, and fund our Lifespan.io campaign today!

MMTP — Major Mouse Testing Program.
http://majormouse.org

Is a project by the International Longevity Alliance.

Continue reading “MMTP — Major Mouse Testing Program — Interview with Ilia Stambler” | >

Here’s a short video and story from CCTV America (China’s Public TV in America) from my interview at the Augmented World Expo. I discuss robots, the Immortality Bus, and a Universal Basic Income:

CCTV America’s Mark Niu interviewed Zoltan Istvan, the founder of the Transhumanist Party and a 2016 candidate for the U.S. presidency. He asked Istvan one more question about his “immortality bus” and whether robots will take over our jobs.

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SRI is developing wearable “exosuits” that can augment the musculoskeletal system for performance and strength enhancement and assistance to overcome or prevent damage from injury or disease. SRI’s exosuit differs from exoskeletons by using new muscle-like actuation, comfortable and soft skin attachment, and electronically releasable spring elements to minimize mass, bulk, and noise as well as eliminate constraints on natural joint motions. As part of DARPA’s Warrior Web Program, the technology is being applied to prevent and reduce musculoskeletal injuries caused by dynamic events typically found in the warfighter’s environment. They are exploring other military applications and beginning to use the technologies to assist individuals with musculoskeletal diseases.

The wearable exosuit, Superflex, uses motion sensors, accelerometers and gyroscopes to read the speed and angles of the owner’s legs and adjust its movements accordingly.

On April 21, 2016 – SRI International announced the launch of Superflex, Inc., its newest spin-off venture. Superflex will develop cutting-edge wearable robotics to enhance the human musculoskeletal system for a wide range of applications.

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There are various animals that can live for centuries or millenia.

Genetic engineering technology is rapidly improving and genome wide genetic engineering could become a reality within 10–20 years. It could be possible to replicate in humans the longevity genes and cancer immunity in certain animals.

The longest lived mammal is the bowhead whales. Some confirmed sources estimate bowhead whales to have lived at least to 211 years of age.

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Efficiency trends in DNA sequencing (green) and synthesis of double-stranded DNA (dsDNA, blue) and single-stranded DNA (ssDNA, red) over the past ~35 years. The disruptive improvement in sequencing and ssDNA (oligonucleotides) synthesis technologies has improved from multiplex and miniaturization technologies in high-throughput DNA sequencing and oligo microarray technologies, respectively. (credit: Jef D. Boeke et al./Science)

Leading genomics experts have announced Genome Project-write (HGP-write), which aims to synthesize entire genomes of humans and other species from chemical components and get them to function in living cells.

As explained in Science, the goal of HGP-write is to reduce the costs of engineering large genomes, including a human genome, and to develop an ethical framework for genome-scale engineering and transformative medical applications.

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Space is not the soundless vacuum movies would have us believe. In fact, judging by these eerie recordings of the music being thrown off by the oldest stars in the Milky Way, space actually sounds like a bit of a party.

The recordings were created by a team of scientists led by Andrea Miglio of the University of Birmingham, using data from NASA’s Kepler missions. After measuring the acoustic oscillations of some of the furthest known distant stars in the Milky Way’s M4 star cluster, the researchers were able to use that data to recreate the sounds and get an idea of just what noises the stars are throwing off. It’s a cacophony, for sure—but a surprisingly musical one that could slide pretty seamlessly into an ambient house track of your choice. (Free idea, DJs.)

Besides being excellent listening, the sounds are also scientifically useful. Measuring the tones from each star let the researchers derive a formula, which they’ve published today in Monthly Notices of the Royal Astronomical Society, to get more precise measurements of star masses and ages. Since the stars are so old, in some cases up to 13 billion years, researchers hope to use the sounds to get even more information about what the universe was like way back then.

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Wow!

Mobile phone data may reveal an underlying mathematical connection between how we move and how we communicate that could make it easier to predict how diseases—and even ideas—spread through a population, according to an international team of researchers.

“This study really deepens our quantitative understanding of human behavior,” said Dashun Wang, assistant professor of and technology, Penn State. “We would like to think that we control our own behavior and we can do what we want to do. But, what we are starting to see with is that there is a very deep regularity underlying much of what we do.”

In a study, location and communication data collected from three international carriers showed that people move and communicate in predictable patterns, said Wang.

Continue reading “Walking and talking behaviors may help predict epidemics and trends” | >