Lifeboat Foundation: Safeguarding Humanity
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Astronauts face many challenges to their health, due to the exceptional conditions of spaceflight. Among these are a variety of infectious microbes that can attack their suppressed immune systems.

Now, in the first study of its kind, Cheryl Nickerson, lead author Jennifer Barrila and their colleagues describe the infection of by the intestinal pathogen Salmonella Typhimurium during . They show how the microgravity environment of spaceflight changes the molecular profile of human intestinal and how these expression patterns are further changed in response to infection. In another first, the researchers were also able to detect in the bacterial pathogen while inside the infected host cells.

The results offer fresh insights into the infection process and may lead to novel methods for combatting invasive pathogens during spaceflight and under less exotic conditions here on earth.

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How can you possibly use simulations to reconstruct the history of the entire universe using only a small sample of galaxy observations? Through big data, that’s how.

Theoretically, we understand a lot of the physics of the history and evolution of the universe. We know that the universe used to be a lot smaller, denser, and hotter in the past. We know that its expansion is accelerating today. We know that the universe is made of very different things, including galaxies (which we can see) and dark matter (which we can’t).

We know that the largest structures in the universe have evolved slowly over time, starting as just small seeds and building up over billions of years through gravitational attraction.

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Astronomers have detected the best place and time to live in the Milky Way, in a recent study published in the journal Astronomy and Astrophysics.

More than six billion years ago, the outskirts of the Milky Way were the safest places for the development of possible life forms, sheltered from the most violent explosions in the universe, that is, the gamma-ray bursts and supernovae.

Also read: Astronomers discover new exoplanet instrumental in hunt for traces of life beyond solar system.

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Free conference covering the upcoming MOON ELEVATOR project: 9–11 March. Bringing together government, military, private industry, academia and others, this three day event is sure to be an eye opener on where we are and where we are going in the coming 5–10 years. Don’t miss out! Get your tickets free today.

- Gravitational Elevators (Lunar Space Elevator Infrastructure)

- Centripetal Elevators (Space Elevators from Earth).

We’ll look at both through the lens of.

Continue reading “Elevators, Space Edition” | >

SpaceX’s Starship is powered by methane. Its Falcon 9 runs on highly refined kerosene known as RP-1.

But if a new tweet means anything, SpaceX CEO Elon Musk already has his eyes set on a much higher-tech rocket fuel: antimatter.

In a reply to a post about antimatter rockets — hypothetical spacecraft that would be powered by antimatter — Musk tweeted just two words: “Ultimately, yes.”

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When developers deliver software to their clients, they often also provide what is known as a ‘test suite.’ A test suite is a tool that allows users to test software, unveil any bugs it might have and give developers a chance to fix these bugs or other potential issues.

In addition to evaluating , therefore, developers also need to ascertain the efficacy of a suite in identifying bugs and errors. One way to run test suite evaluations is via , a technique that generates several ‘mutants’ of a program by slightly modifying its original code. While mutation testing tools have proved to be incredibly helpful, most of them cannot be applied to software that is only available in binary code (a way of representing texts or instructions for computers using two symbols, generally ‘0’ and ‘1’).

Researchers at Arizona State University, Worcester Polytechnic Institute and the University of Minnesota have recently developed SN4KE, a framework that can be used to carry out mutation analyses at a binary level. This framework, presented at the Binary Analysis Research (BAR) NDSS symposium ‘21 in February, is a new tool to efficiently test suites for software based on binary codes.

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