Sunday’s launch of the 2022 World Cup signified a major step forward in sports technology, according to watchanews.com
Match balls will have a sensor that gathers spatial position data in real time for the whole World Cup. Combining it with optical tracking will improve offside reviews and VAR (video assistant referees). In the world of technology, combining these two monitoring methods has long been seen as the holy grail. Over the next four weeks, FIFA’s deployment of the ball sensor will serve as a very public test case.
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The World Cup setting is both a pinnacle and the beginning of a new era in sports technology. This ball sensor took six years to design and test before FIFA approval, but events like this may quickly propel new technology into the public spotlight for uses beyond officiating.
What factors led to the advancement of modern tracking technology, and what are its principal applications during current World Cup? How is the technology assessed, and how can players, teams, and fans trust it? What does this technology mean for future baseball analysis, fan involvement, and club data?This is maybe most essential.
To get information on one of the sport technology industry’s most daring projects to date, I spoke with a variety of people in the industry.
Which Technology World Cup Is Being Used, And How Does It Work?
FIFA will deploy this technology at the 2022 World Cup for a “semi-automated offside” approach, which is primarily handled by AI but still requires human confirmation.
Every match ball has a gadget created by KINEXON, a significant participant in the performance-tracking industry across several sports.
This gadget, which the manufacturer claims weighs 14 grams (a little under 0.5 ounces), contains two independent sensors that work together at the same time.
Ultra-Wideband (UWB) Sensor
This technology gives more precise positional data than GPS or Bluetooth and can communicate data in real-time to
Inertial Measurement Unit (IMU) sensor
a device that can track an object’s subtle motions in space.
“While ultra-wideband gives me an object’s location, the IMU gives me granular movement in three dimensions,” said KINEXON’s Maximillian Schmidt.
The system detects ball movement at 500 frames per second, whether kicked, headed, thrown, or tapped.
Local positioning systems (LPS) deploy network antennas throughout the field to store sensor data in real time.
When a new ball is kicked or thrown in to replace an out-of-play one, KINEXON’s backend system switches to its data.