Hello World.
I’m Imagination.
In this video, I’m going to talk about how an AI Camera Mistakes Soccer Ref’s Bald Head For Ball. Technology and sports have a fairly mixed relationship already. Log on to Twitter during a soccer match (or football as it’s properly known• and as well as people tweeting ambiguous statements like “YESSS” and “oh no mate” to about 20,000 inexplicable retweets, you’ll likely see a lot of complaints about the video assistant referee (VAR) and occasionally goal-line technology not doing its job. Fans of Scottish football team Inverness Caledonian Thistle FC experienced a new hilarious technological glitch during a match last weekend, but in all honesty, you’d be hard-pressed to say it didn’t improve the viewing experience dramatically.
The club announced a few weeks ago it was moving from using human camera operators to cameras controlled by AI. The club proudly announced at the time the new “Pixellot system uses cameras with in-built, AI, ball-tracking technology” and would be used to capture HD footage of all home matches at Caledonian Stadium, which would be broadcast directly to season-ticket holders’ homes. The AI camera appeared to mistake the man’s bald head for the ball for a lot of the match, repeatedly swinging back to follow the linesman instead of the actual game. Many viewers complained they missed their team scoring a goal because the camera “kept thinking the Lino bald head was the ball,” and some even suggested the club would have to provide the linesman with a toupe or hat.
NASA’s Solid Rocket Booster
Posted in space
Hubble’s Extraordinary ULLYSES Program
Posted in space
All For One, Crew-1 For All
Posted in space travel
NASA is flying astronauts to the International Space Station from the United States using commercial vehicles.
On Nov. 14, the first operational mission of this program, NASA’s SpaceX Crew-1 mission, is set to launch four astronauts on SpaceX’s Crew Dragon vehicle.
Watch as the crew explains what their mission is, how it is different from Bob Behnken and Doug Hurley’s Demo-2 flight, and what it means for people here on Earth. https://www.nasa.gov/crew-1
As scientists await the highly anticipated initial results of the Muon g-2 experiment at the U.S. Department of Energy’s (DOE) Fermi National Accelerator Laboratory, collaborating scientists from DOE’s Argonne National Laboratory continue to employ and maintain the unique system that maps the magnetic field in the experiment with unprecedented precision.
Argonne scientists upgraded the measurement system, which uses an advanced communication scheme and new magnetic field probes and electronics to map the field throughout the 45-meter circumference ring in which the experiment takes place.
The experiment, which began in 2017 and continues today, could be of great consequence to the field of particle physics. As a follow-up to a past experiment at DOE’s Brookhaven National Laboratory, it has the power to affirm or discount the previous results, which could shed light on the validity of parts of the reigning Standard Model of particle physics.
BMW i EV technology isn’t only working in two dimensions — now it’s taking to the skies in an electric wingsuit.
It’s not the most conventional electric flight, but that hasn’t stopped the concept from progressing to its maiden flight. The electric wingsuit project has been in the works for three years, since it began as just a concept in the mind of air sports pioneer Peter Salzmann.
With the collaboration of BMW i and Designworks, the group brought the electric wingsuit to life for Peter to test.
An H&M store in Stockholm, Sweden, will receive the world’s first in-store garment to garment recycling machine.
A new documentary highlights the challenges overcome by the experimental aircraft, Solar Impulse.
In 1973, physicist and later Nobel laureate Philip W. Anderson proposed a bizarre state of matter: the quantum spin liquid (QSL). Unlike the everyday liquids we know, the QSL actually has to do with magnetism—and magnetism has to do with spin.
Disordered electron spin produces QSLs
What makes a magnet? It was a long-lasting mystery, but today we finally know that magnetism arises from a peculiar property of sub-atomic particles, like electrons. That property is called “spin,” and the best—yet grossly insufficient—way to think of it is like a child’s spinning-top toy.