Lifeboat Foundation: Safeguarding Humanity
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Gain-of-function experiments aim to increase the transmissibility and virulence of existing viruses, making them deadlier for humans. The stated purpose is to better understand pathogens and to develop vaccines for possible future pandemics. Critics say this type of research is extremely dangerous and should be banned or regulated. They claim it has not prevented any pandemics to date, and that the COVID-19 outbreak might be the result of an accidental release from a lab that was conducting gain-of-function research.

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#biosafety #GainOfFunction #pandemic

Continue reading “Gain-of-Function: Should supercharging viruses be banned? | DW News” | >

DeepMind and EMBL release the most complete database of predicted 3D structures of human proteins.

Partners use AlphaFold, the AI system recognized last year as a solution to the protein structure prediction problem, to release more than 350000 protein structure predictions including the entire human proteome to the scientific community.

DeepMind today announced its partnership with the European Molecular Biology Laboratory (EMBL), Europe’s flagship laboratory for the life sciences, to make the most complete and accurate database yet of predicted protein structure models for the human proteome. This will cover all ~20000 proteins expressed by the human genome, and the data will be freely and openly available to the scientific community. The database and artificial intelligence system provide structural biologists with powerful new tools for examining a protein’s three-dimensional structure, and offer a treasure trove of data that could unlock future advances and herald a new era for AI-enabled biology.

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Brain–computer interfaces (BCIs) provide bidirectional communication between the brain and output devices that translate user intent into function. Among the different brain imaging techniques used to operate BCIs, electroencephalography (EEG) constitutes the preferred method of choice, owing to its relative low cost, ease of use, high temporal resolution, and noninvasiveness. In recent years, significant progress in wearable technologies and computational intelligence has greatly enhanced the performance and capabilities of EEG-based BCIs (eBCIs) and propelled their migration out of the laboratory and into real-world environments. This rapid translation constitutes a paradigm shift in human–machine interaction that will deeply transform different industries in the near future, including healthcare and wellbeing, entertainment, security, education, and marketing. In this contribution, the state-of-the-art in wearable biosensing is reviewed, focusing on the development of novel electrode interfaces for long term and noninvasive EEG monitoring. Commercially available EEG platforms are surveyed, and a comparative analysis is presented based on the benefits and limitations they provide for eBCI development. Emerging applications in neuroscientific research and future trends related to the widespread implementation of eBCIs for medical and nonmedical uses are discussed. Finally, a commentary on the ethical, social, and legal concerns associated with this increasingly ubiquitous technology is provided, as well as general recommendations to address key issues related to mainstream consumer adoption.

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One of the holy grails of computer science is the development of an AI that can extrapolate from data. A team of researchers from the University of Southern California has announced the development of something profoundly new — a model for an AI with imagination.

Understanding “why” may be the key to unlocking an AI’s imagination.

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When will Neuralink be available to healthy individuals? It’s difficult to find a coherent train of thought pertaining to this question specifically.

Recently, I’ve started thinking more in terms of regulatory approval rather than rough timeline estimates. This sent me down a fascinating path learning more about how medical devices in general make it through “the system.”

This video essay hopefully ties together that research in an accessible way that addresses the topic more directly.

Cheers.

Continue reading “When Will Neuralink Be Available To Everyone?” | >

Scientists hunting for elusive gravitational waves across the universe may be able to supercharge their discoveries with a new tool: artificial intelligence.

Gravitational waves are ripples in spacetime, created when a massive object is accelerated or disturbed, such as when a black hole and a neutron star collide. Theorized by Albert Einstein, their existence was confirmed in 2015 with the first gravitational wave discovery by researchers using LIGO (the advanced Laser Interferometer Gravitational-Wave Observatory). Now, just six years later, there have been at least 50 gravitational wave events detected.

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Update now: The ream of bugs includes some remotely exploitable code execution flaws. Still to come: a fix for what makes iPhones easy prey for Pegasus spyware.

IPhone users, drop what you’re doing and update now: Apple has issued a warning about a ream of code-execution vulnerabilities – some of which are remotely exploitable – and experts are emphatically recommending an ASAP update to version 14.7 of iOS and iPadOS.

Unfortunately, you aren’t getting a fix for the flaw that makes your iPhones easy prey for Pegasus spyware. As headlines have focused on all week, a zero-click zero-day in Apple’s iMessage feature is being exploited by NSO Group’s notorious Pegasus mobile spyware: A spyware blitz enabled by a bug that has given the security community pause about the security of Apple’s closed ecosystem.

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