Lifeboat Foundation: Safeguarding Humanity
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Category: robotics/AI

Of course, the computers and data centers that support AI’s complex algorithms are very much dependent on electricity. While that may seem pretty obvious, it may be surprising to learn that AI can be extremely power-hungry, especially when it comes to training the models that enable machines to recognize your face in a photo or for Alexa to understand a voice command.

The scale of the problem is difficult to measure, but there have been some attempts to put hard numbers on the environmental cost.

For instance, one paper published on the open-access repository arXiv claimed that the carbon emissions for training a basic natural language processing (NLP) model—algorithms that process and understand language-based data—are equal to the CO2 produced by the average American lifestyle over two years. A more robust model required the equivalent of about 17 years’ worth of emissions.

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In focal brain diseases, a patient’s neural network loses key connections, preventing the brain from functioning as it miraculously should. But what if there was a way to restore those connections? An EU funded study is seeking to do just that by getting real biological neurons to synaptically communicate with artificial ones.

Though still in the early stages of study, SYNCH, a team of scientists from the U.K., Switzerland, Germany, and Italy, have created what they describe as a “synaptically connected brain-silicon Neural Closed-loop Hybrid system.” Basically, they’ve taken actual brain cells and artificial brain cells, and got them talking back and forth over the internet.

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When I tell people I am a transhumanist, it often raises an eyebrow – or several questions. What is transhumanism? What is a ‘posthuman’? Why would anyone want to live forever? This article will briefly respond to these questions (amongst others) and consider what this may mean for the education sector. Key questions will be identified in the area of transhumanism and education as four themes are considered: teachers, human hardware, curriculum and lifelong learning. With ‘trans’ meaning ‘across’, transhumanism is a ‘technoprogressive’ socio-political and intellectual movement (Porter, 2017) that involves transforming our primitive human selves into selves enhanced through technology. Transhumanism aims to develop our physical, emotional and cognitive capacities and thus to open up new possibilities and horizons of experience (Thompson, 2017). The end goal is one day to become ‘posthuman’: combating ageing and freeing ourselves from current biological limitations.

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Ogba Educational Clinic

Theoretically, workers have been on the fast track to obsolescence since the Luddites took sledgehammers to industrial looms in the early 1800s.

In 1790, 90 percent of all Americans made their living as farmers; today it’s less than 2 percent. Did those jobs disappear? Not exactly. The agrarian economy morphed, first into the industrial economy, next into the service economy, now into the information economy.

Automation produces job substitution far more than it does job obliteration. And even when automation takes hold of a range of professional roles, this doesn’t always create the dire results we expect.

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Incredible Ai

A new wearable sensor could save the lives of heart-failure patients.

The artificially intelligent technology helps doctors remotely detect critical changes days before a crisis occurs.

It may even prevent hospitalization, according to a study by University of Utah Health and VA Salt Lake City Health Care System scientists.

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“Chang’e 4’s landing was no mean feat in itself. The reason why it is so difficult to send anything, robot or man, to the far side of the Moon, is because it is difficult to maintain communications with ground control on Earth with a giant rock in between (the Moon!).”

Chang’e-4 is the first spacecraft ever to land on the Moon’s far side.

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Two unmanned commercial satellites have docked in orbit for the first time. On February 25, Northrop Grumman’s Mission Extension Vehicle-1 (MEV-1) linked up with the Intelsat 901 (IS-901) communication satellite at an altitude of 22,416 mi (36,076 km) above the Earth as part of a project to extend the service life of satellites that are running low on propellants.

The building and launching of satellites is extremely expensive, so it’s more than just frustrating when a perfectly good spacecraft has to be disposed of or abandoned simply because it has run out of the propellants needed to keep it in its proper orbit and pointed at Earth. There have been a number of solutions proposed for this problem – in this case Northrop’s MEV-1 is designed to match orbits with aging satellites, dock, and take over the job of maintaining orbit and attitude.

MEV-1 was launched on October 9, 2019, and then executed a series of orbital maneuvers to rendezvous with IS-901, 180 mi (290 km) above geosynchronous orbit. Northrop says the target communication satellite was removed from service last December after over 19 years of service and its customers transferred to other Intelsats.

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