Lifeboat Foundation: Safeguarding Humanity
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Blog – Page 16

From bird flocking to fish schooling, many biological systems exhibit some type of collective motion, often to improve performance and conserve energy. Compared to other swimmers, manta rays are particularly efficient, and their large aspect ratio is useful for creating large lift compared to drag. These properties make their collective motion especially relevant to complex underwater operations.

To understand how their affect their propulsion, researchers from Northwestern Polytechnical University (NPU) and the Ningbo Institute of NPU, in China, modeled the motions of groups of , which they present in Physics of Fluids.

“As underwater operation tasks become more complex and often require multiple underwater vehicles to carry out group operations, it is necessary to take inspiration from the group swimming of organisms to guide formations of underwater vehicles,” said author Pengcheng Gao. “Both the shape of manta rays and their propulsive performance are of great value for biomimicry.”

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The global climate is in an imbalance. Potential “tipping elements” include the Greenland ice sheet, coral reefs, and the Amazon rainforest. Together they form a network that can collapse if just one individual component tips.

Researchers from Bonn University Hospital (UKB) and the University of Bonn have now shed light on seemingly sudden and rare, often irreversible changes within a system, such as those that can be observed in the climate, the economy, social networks or even the human brain. They took a closer look at extreme events such as epileptic seizures.

Their aim was to better understand the mechanisms underlying such changes in order to ultimately make predictions. The results of their work have now been published in the journal Physical Review Research.

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A new way of explaining gravity could bring us a step closer to resolving the heretofore irresolvable differences it has with quantum mechanics.

Physicists Mikko Partanen and Jukka Tulkki at Aalto University in Finland have devised a new way of thinking about gravity that they say is compatible with the Standard Model of particle physics, the theory describing the other three fundamental forces in the Universe – strong, weak, and electromagnetic.

It’s not quite a theory of quantum gravity… but it could help us get there.

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Our research found that the phenomenon arises when the part of the brain which detects familiarity de-synchronises with reality. Déjà vu is the signal which alerts you to this weirdness: it is a type of “fact checking” for the memory system.

But repetition can do something even more uncanny and unusual. The opposite of déjà vu is “jamais vu”, when something you know to be familiar feels unreal or novel in some way. In our recent research, which has just won an Ig Nobel award for literature, we investigated the mechanism behind the phenomenon.

Jamais vu may involve looking at a familiar face and finding it suddenly unusual or unknown. Musicians have it momentarily – losing their way in a very familiar passage of music. You may have had it going to a familiar place and becoming disorientated or seeing it with “new eyes”

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Cybersecurity researchers have lifted the lid on two threat actors that orchestrate investment scams through spoofed celebrity endorsements and conceal their activity through traffic distribution systems (TDSes).

The activity clusters have been codenamed Reckless Rabbit and Ruthless Rabbit by DNS threat intelligence firm Infoblox.

The attacks have been observed to lure victims with bogus platforms, including cryptocurrency exchanges, which are then advertised on social media platforms. An important aspect of these scams is the use of web forms to collect user data.

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A new health-assessment method, called the Health Octo Tool, uses eight measures drawn from physical exams and routine lab tests to calculate a person’s biological age.

The tool may predict an individual’s risk of disability and death more accurately than existing health predictors.

The research team, led by Shabnam Salimi from the University of Washington School of Medicine, believes the tool could uncover new factors that shape the aging process and help design interventions to extend lifespan. Salimi is a physician-scientist and acting instructor in the Department of Anesthesiology & Pain Medicine.

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