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Archive for the ‘computing’ category: Page 276

Nov 1, 2022

New Origami-Inspired Mouse Folds Into a Flat Shape for Travel

Posted by in category: computing

If it’s been a while since you’ve tackled the art of origami, don’t worry—you don’t need any crafty folding skills to prep the Air.o for use. Squeezing the sides of the flattened Air.o pushes it into its mouse formation, while a small but mighty magnet holds everything together. Dissembling the Air.o is said to be as easy as undoing the magnet and pushing down on the mouse to turn it into a geometric pancake. According to Air.o, the mouse’s vegan leather (AKA plastic) skin will retain its integrity even after being manipulated again and again. It’ll even survive nasty falls onto hard surfaces if Air.o’s Kickstarter page is anything to go off of.

For those who enjoy the “digital nomad” lifestyle but hate using a trackpad, the Air.o could be a game-changer. There are plenty of lightweight Bluetooth computer mice on the market these days, but none of them flatten into something that could pass as a bookmark in a pinch. Air.o’s Kickstarter page says the team elected to make a full-size mouse to avoid the fatigue that comes with using a mini mouse—a tiny (and frankly irritating to use) device that often ends up being added to people’s go bags for lack of better options.

As with any other Kickstarter campaign, there’s no saying whether the Air.o will ever make it to adopters’ bags and pockets (though this campaign in particular has surpassed its fundraising goal by a long shot, so there’s hope). It’s also difficult to say exactly how easy the Air.o is to use for long periods of time; the mouse’s design, though clever, might be uncomfortable for some. At only $49 USD per mouse, however, the Air.o does appear to be worth trying, if only to impress the people sitting near you at a cafe or on your next flight.

Nov 1, 2022

New computational method builds detailed maps of human tissues

Posted by in categories: biotech/medical, computing

Weill Cornell Medicine researchers have developed a computational method to map the architecture of human tissues in unprecedented detail. Their approach promises to accelerate studies on organ-scale cellular interactions and could enable powerful new diagnostic strategies for a wide range of diseases.

The method, published Oct. 31 in Nature Methods, grew out of the scientists’ frustration with the gap between classical microscopy and modern single-cell molecular analysis. “Looking at tissues under the microscope, you see a bunch of cells that are grouped together spatially—you see that organization in images almost immediately,” said lead author Junbum Kim, a graduate student in physiology and biophysics at Weill Cornell Medicine.

“Now, have gained the ability to examine in tremendous detail, down to which genes each cell is expressing, so they’re focused on the cells instead of focusing on the tissue structure,” he said.

Nov 1, 2022

Researchers Demonstrate Fully Recyclable Printed Electronics

Posted by in categories: computing, materials

Circa 2021 face_with_colon_three


New technique reclaims nearly 100% of all-carbon-based transistors while retaining future functionality of the materials.

Oct 31, 2022

Hark back to the late 1990s with this re-creation of the dialup Internet experience

Posted by in categories: biotech/medical, computing, mobile phones

We all found our coping strategies for riding out the pandemic in 2020. Biomedical engineer Gough Lui likes to tinker with tech—particularly vintage tech—and decided he’d try to recreate what it was like to connect to the Internet via dialup back in the late 1990s. He recorded the entire process in agonizing real time, dotted with occasional commentary.

Those of a certain age (ahem) well remember what it used to be like: even just booting up the computer required patience, particularly in the earlier part of the decade, when one could shower and make coffee in the time it took to boot up one’s computer from a floppy disk. One needed a dedicated phone line for the Internet connection, because otherwise an incoming call could disrupt the connection, forcing one to repeat the whole dialup process.

Oct 31, 2022

The Hard Problem of consciousness solved

Posted by in categories: computing, particle physics, quantum physics

How does something as immaterial as consciousness arise from something as unconscious as matter?
This is known as the Hard Problem and this theory gets around this problem by explaining consciousness as electrical activity that is aware of its own electrical potential. This is possible because the light photon is the carrier of the electromagnetic force. Because light has momentum and momentum is frame dependent electrical activity in the brain is always in the centre of its own reference frame in ‘the moment of now’ with a potential future that is always uncertain and a past that has gone forever. It is because consciousness is always in the centre of its own reference frame that we have the concept of ‘mind’ with each one of us having our own personal view of the Universe. This is within a process formed by the spontaneous absorption and emission of light a process of continuous energy exchange forming the ever changing world of our everyday life. If our eyes where more sensitive to light we would be able to see that everything is radiating EMR or light continuously because the Universe is never at absolute zero.
In this theory consciousness is the most advanced part of a universal process that can be explained by physics. There are no paradoxes in this theory! We are in the centre of our own reference frame being able to look back in time in every direction at the beauty of the stars. We can also look down into individual reference frames seeing the future unfold photon by photon relative to that frame of reference.
The greatest affect this process of continuous energy exchange has on us is the aging process with photon energy from the Sun cascading down forming greater degrees of freedom for the continuous increase in entropy or disorganization.
But above all this is a creative process with the future coming into existence relative to the energy and momentum or actions of each individual life form. The wave-particle duality of light is acting like the bits or zeros and ones of a computer. This forms a blank canvas for life to form its own future relative to its position and the energy and momentum of its own actions. The Universe is a continuum with spacetime as an emergent property with an Arrow of Time for each object or life form with a future coming into existence relative to their energy & momentum with each new photon electron coupling or dipole moment.
I believe this is what we are seeing when we see an artist at work we are seeing the future unfolding relative to the energy and momentum of the artist!
In this theory creation is truly in the eye and hand of the beholder!
Thanks for watching please share and subscribe on YouTube and be part of the promotion of this theory!

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Link to my web site: http://quantumartandpoetry.blogspot.co.uk/

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Oct 30, 2022

Revolutionary technique to generate hydrogen more efficiently from water

Posted by in categories: chemistry, computing, engineering, sustainability

A team of researchers from the National University of Singapore (NUS) have made a serendipitous scientific discovery that could potentially revolutionize the way water is broken down to release hydrogen gas—an element crucial to many industrial processes.

The team, led by Associate Professor Xue Jun Min, Dr. Wang Xiaopeng and Dr. Vincent Lee Wee Siang from the Department of Materials Science and Engineering under the NUS College of Design and Engineering (NUS CDE), found that light can trigger a new mechanism in a catalytic material used extensively in , where water is broken down into and oxygen. The result is a more energy-efficient method of obtaining hydrogen.

This breakthrough was achieved in collaboration with Dr. Xi Shibo from the Institute of Sustainability for Chemicals, Energy and Environment under the Agency for Science, Technology and Research (A*STAR); Dr. Yu Zhigen from the Institute of High Performance Computing under A*STAR; and Dr. Wang Hao from the Department of Mechanical Engineering under the NUS CDE.

Oct 29, 2022

Tech war: How the US chip embargo is eroding China’s research base

Posted by in categories: computing, neuroscience

Semiconductors are small, ubiquitous, and underappreciated. They are the brains of every modern device.

When Nancy Pelosi traveled to Taiwan in August, it made front-page news around the world and raised the specter of an all-out war between the U.S. and China.

Early in October, the Biden administration made a far more decisive move against China — but it barely made the news in Australia.

Continue reading “Tech war: How the US chip embargo is eroding China’s research base” »

Oct 29, 2022

Novel thermal phases of topological quantum matter in the lab

Posted by in categories: computing, particle physics, quantum physics

For the first time, a group of researchers from Universidad Complutense de Madrid, IBM, ETH Zurich, MIT and Harvard University have observed topological phases of matter of quantum states under the action of temperature or certain types of experimental imperfections. The experiment was conducted using quantum simulator at IBM.

Quantum simulators were first conjectured by the Nobel Prize laureate Richard Feynman in 1982. Ordinary classical computers are inefficient at simulating systems of interacting quantum particles These new simulators are genuinely quantum and can be controlled very precisely. They replicate other quantum systems that are harder to manipulate and whose physical properties remain very much unknown.

In an article published in the journal Quantum Information, the researchers describe using a with superconducting qubits at IBM to replicate materials known as topological insulators at finite temperature, and measure for the first time their topological quantum phases.

Oct 28, 2022

A new laser-powered chip can transmit the entire internet (twice) each second

Posted by in categories: computing, internet

Well, consumer devices can’t run on lasers just yet. But in recent years, researchers have been working hard to make this dream a reality.

In the most recent breakthrough, a new chip can bend laser light to transmit 1.8 petabits, or over 1 million gigabits, per second. To put things in perspective, that’s nearly twice the world’s internet traffic per second.

This breaks the May 2022 record of 1.02 petabits per second, as reported by New Atlas.

Oct 28, 2022

Meta what?

Posted by in categories: augmented reality, big data, computing, evolution, futurism, information science, innovation, internet, life extension, machine learning, Mark Zuckerberg, posthumanism, singularity, virtual reality

When in 2015, Eileen Brown looked at the ETER9 Project (crazy for many, visionary for few) and wrote an interesting article for ZDNET with the title “New social network ETER9 brings AI to your interactions”, it ensured a worldwide projection of something the world was not expecting.

Someone, in a lost world (outside the United States), was risking, with everything he had in his possession (very little or less than nothing), a vision worthy of the American dream. At that time, Facebook was already beginning to annoy the cleaner minds that were looking for a difference and a more innovative world.

Today, after that test bench, we see that Facebook (Meta or whatever) is nothing but an illusion, or, I dare say, a big disappointment. No, no, no! I am not now bad-mouthing Facebook just because I have a project in hand that is seen as a potential competitor.

I was even a big fan of the “original” Facebook; but then I realized, it took me a few years, that Mark Zuckerberg is nothing more than a simple kid, now a man, who against everything and everyone, gave in to whims. Of him, initially, and now, perforce, of what his big investors, deluded by himself, of what his “metaverse” would be.

Continue reading “Meta what?” »