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The Life Extension Advocacy Foundation, in collaboration with Singularity University Moscow Chapter and consulting group Deloitte, is hosting in Moscow an expert discussion on how to inform society about the potential and the advancement of gerontology and preventive medicine.

Life Extension Advocacy Foundation, in collaboration with Singularity University Moscow Chapter and consulting group Deloitte, are hosting in Moscow an expert discussion on how to inform society about the potential and the advancement of gerontology and preventive medicine. These experts believe that attracting people’s attention to the capabilities of medical technologies to prevent aging might help extend the healthy period of life and significantly decrease morbidity from age-related diseases.

The panel discussion “6 ways to talk to people about ending aging” will bring together famous futurists, scientists, science popularizers and public figures who foster the dissemination of the idea to prevent aging in Russia and other countries.

Jose Luis Cordeiro, fellow of the World Academy of Art and Science (WAAS), director of life extension advocacy organization Humanity Plus.

Continue reading “6 Ways to Talk to People about Ending Aging – Moscow Nov 4th” | >

With a focus on building the archetypal missions for NASA’s new Space Launch System rocket, the U.S.-based Boeing Corporation has outlined their view of what technologies can be used to accomplish humankind’s goal of visiting crews to the Martian system – missions Boeing believes are possible through the combination of the SLS rocket’s lift capability, the bourgeoning Solar Electric Propulsion technology field, and Bigelow’s soon-to-be-tested inflatable habitat modules.

From the Earth-Moon system to Mars:

Continuing from their initial presentation on potential SLS rocket uses beyond the opening two circumlunar missions, the Boeing Corporation has presented their idea of how to execute a phased approach to deep space exploration – with an eye for the eventual goal of landing human beings on the surface of Mars.

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In recent articles, we have talked about the potential of the immune system to help repair tissue, including for peripheral nerve damage, Atherosclerosis, and Parkinson’s. Immune cells not only fight infection; as this new study shows, they also help the nervous system remove debris, paving the way for nerve regeneration following injury.

While previous studies suggested that nerve cell damage repair was conducted by other immune cell types, such as macrophages, researchers from Case Western Reserve University School of Medicine have shown that neutrophils also play a role.

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Thank a new approach to spoofing image recognition AIs, developed by a team from Kyushu University in Japan, for that joke.

Trying to catch out AIs is a popular pastime for many researchers, and we’ve reported machine-learning spoofs in the past. The general approach is to add features to images that will incorrectly trigger a neural network and have it identify what it sees as something else entirely.

The new research, published on the arXiv, describes an algorithm that can efficiently identify the best pixels to alter in order to confuse an AI into mislabeling a picture. By changing just one pixel in a 1,024-pixel image, the software can trick an AI about 74 percent of the time. That figure rises to around 87 percent if five pixels are tweaked.

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Physicists have proposed a way to test quantum gravity that, in principle, could be performed by a laser-based, table-top experiment using currently available technology. Although a theory of quantum gravity would overcome one of the biggest challenges in modern physics by unifying general relativity and quantum mechanics, currently physicists have no way of testing any proposed theories of quantum gravity.

Now a team of seven physicists from various countries, S. Dey, A. Bhat, D. Momeni, M. Faizal, A. F. Ali, T. K. Dey, and A. Rehman, have come up with a novel way to experimentally test gravity using a laser-based experiment. They have published a paper on their proposed test in a recent issue of Nuclear Physics B.

One reason why testing quantum gravity is so challenging is that its effects appear only at very high-energy scales and their corresponding tiny length scales. These extreme scales, which are very near the Planck scale, are roughly 15 orders of magnitude beyond those accessible by the Large Hadron Collider (LHC), by far the world’s highest-energy experiment.

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