Lifeboat Foundation: Safeguarding Humanity
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Blog – Page 4988

Robots have always found it a challenge to work with people and vice versa. Two people on the cutting edge of improving that relationship joined us for TC Sessions: Robotics to talk about the present and future of human-robot interaction: Veo Robotics co-founder Clara Vu and Robust.ai founder Rod Brooks (formerly of iRobot and Rethink Robotics).

Part of the HRI challenge is that although we already have robotic systems that are highly capable, the worlds they operate in are still very narrowly defined. Clara said that as we move from “automation to autonomy” (a phrase she stressed she didn’t invent) we’re adding both capabilities and new levels of complexity.

“We’re moving … from robotic systems that do exactly what they were told to do or can perceive a very specific very low-level thing, to systems that have a little bit more autonomy and understanding,” she said. “The system that my company builds would not have been possible five years ago, because the sensors that we’re using and the processors that we’re using to crunch that data just didn’t exist. So as we do have better sensors and more processing capabilities, we’re able to, as you said, understand a little bit more about the world that we’re in and sort of move the level of robotic performance up a notch.”

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Our bodies have evolved formidable barriers to protect themselves against foreign substances—from our skin, to our cells and every component within the cells, each part of our bodies has protective layers. These defenses, while essential, pose a significant challenge for pharmaceutical drugs and therapies, such as vaccines, that have to bypass multiple barriers to reach their targets.

Although these barriers are vitally important in pharmaceutical science and drug design, much is still unknown about them and how to overcome them.

In a recent study, researchers from Xi’an Jiaotong-Liverpool University and Nanjing University in China, and Western Washington and Emory University in the U.S., shed some light on why the delivery of therapeutics to can be so difficult.

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This network had mostly been studied in English speakers.

Japanese, Italian, Ukrainian, Swahili, Tagalog and dozens of other spoken languages cause the same “universal language network” to light up in the brains of native speakers. This hub of language processing has been studied extensively in English speakers, but now neuroscientists have confirmed that the exact same network is activated in speakers of 45 different languages representing 12 distinct language families.

“This study is very foundational, extending some findings from English to a broad range of languages,” senior author Evelina Fedorenko, an associate professor of neuroscience at MIT and a member of MIT’s McGovern Institute for Brain Research, said in a statement (opens in new tab).

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A tech company in Hong Kong says it has developed the world’s first artificially intelligent laser skin treatment, which scans and detects the heat, sensitivity and shape of a customer’s face. Rods Technology spent over five years developing the technology to help reduce the number of injuries caused by manual treatments conducted by “blind” dermatologists. Over 100 laser facial injuries were reported in Hong Kong between January and July 1, 2022. With a human operator only needing to turn on the machine, the robot dermatologist is able to customise a treatment to help reduce acne scarring, wrinkles and even remove tattoos. The first commercial facial was sold in July 2022.

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Nestled in deep woods in Jefferson, Kim and Rusty Fenn live off the grid in a home they built themselves out of wood from their property. They have two solar-power systems on their roof, one to generate electricity and one to heat their water.

They have all the appliances any home would want, and the solar power provides all their needs. They heat with a heat pump and a wood stove.

Kim, the creative one of the couple, had a pile of chicken grain bags, and decided to make a bag out of one. She then made a bunch for Christmas presents for friends and family. They were such a hit, that the couple decided to make them commercially.

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— Energy Info

Media Contact: Jennifer Kalez

SALEM – A public partnership with the Oregon Department of Energy, Oregon Department of Land Conservation & Development, Oregon State University’s Institute for Natural Resources, and the U.S. Department of Defense has published new educational materials that will help local governments, Tribes, communities, policymakers, agencies, energy developers, and other stakeholders access important information and considerations for potential renewable energy in Oregon.

The Oregon Renewable Energy Siting Assessment (ORESA) project was funded through a $1.1 million U.S. Department of Defense (DoD) grant, with the goal of providing baseline data to support important conversations around potential energy and transmission development in the state.

Continue reading “New Interactive Tool and Report Connects Oregon Renewable Energy Potential with Important Development Considerations” | >

A European team of astronomers led by Professor Kalliopi Dasyra of the National and Kapodistrian University of Athens, Greece, under participation of Dr. Thomas Bisbas, University of Cologne modeled several emission lines in Atacama Large Millimeter Array (ALMA) and Very Large Telescope (VLT) observations to measure the gas pressure in both jet-impacted clouds and ambient clouds. With these unprecedented measurements, published recently in Nature Astronomy, they discovered that the jets significantly change the internal and external pressure of molecular clouds in their path.

Depending on which of the two pressures changes the most, both compression of clouds and triggering of star formation and dissipation of clouds and delaying of star formation are possible in the same galaxy. “Our results show that , even though they are located at the centers of galaxies, could affect star formation in a galaxy-wide manner,” said Professor Dasyra. “Studying the impact of pressure changes in the stability of clouds was key to the success of this project. Once few stars actually form in a wind, it is usually very hard to detect their signal on top of the signal of all other stars in the galaxy hosting the wind.”

It is believed that supermassive black holes lie at the centers of most galaxies in our universe. When particles that were infalling onto these black holes are trapped by magnetic fields, they can be ejected outwards and travel far inside in the form of enormous and powerful jets of plasma. These jets are often perpendicular to galactic disks. In IC 5,063 however, a galaxy 156 million away, the jets are actually propagating within the disk, interacting with cold and dense molecular gas clouds. From this interaction, compression of jet-impacted clouds is theorized to be possible, leading to gravitational instabilities and eventually due to the gas condensation.

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