7 Ways Technology Makes Sports Better

7 Ways Technology Makes Sports Better. The introduction of technological marvels to sports isn’t always easy. Most sports officials are stubborn and hard to reason, which is why its evolution becomes political games. Still, we’ve seen many things that made contests much better, and information on some of them can be found on Telecomasia.net. Let’s check the most interesting technologies on our list.

Wearable Computers

Miniature computers are arguably the best innovations ever put into the service of sport. At a new stage of progress, “smart” clothing comes to sport. Microscopic sensors built into its structure, connected to wireless data networks, monitor heart rate, body temperature, skin moisture, the strength of muscle contractions, joint flexibility, etc. 

Medics and military engineers create models of patients and fighters who register and transmit various biometric indicators in real-time: from blood pressure to the remote recording of injuries and wounds.

Photoline

In 1890, with the help of a camera, it was possible to find out which of the horses participating in the races was the first to cross the finish line. The judges first used a photo finish officially at the 1912 Stockholm Olympics. Today it is one of the vital attributes of competitions in athletics, cycling and motorsports, Formula 1, and several other sports with a mass finish. 

The first serial photo-finish system, the Racend OMEGA Timer, later renamed Photosprint, was introduced in 1949 and was used at the Oslo Winter Olympics in 1952. It is to this system that we owe the name “photo finish”. By the beginning of the 21st century, the photo finish had gone digital.

Fake Ice

On January 7, 1876, an ice rink opened in London. It was the world’s first artificial ice rink. The first indoor one was built in Canada in 1912 by brothers Lester and Joe Patrick. During the construction of the second ice rink, engineers commissioned the owners to create the largest refrigeration unit in the world. This skating rink was able to accommodate more than 10 thousand people. The business turned out to be so lucrative that Patrick subsequently opened hundreds of ice arenas in Canada and the United States. At first, the ice was rolled by hand, and it was an extremely difficult and time-consuming process: water was supplied from a hose and with the help of shovels, special knives and towels, the workers levelled the ice. To get a knowledge base like this you can visit Centreforum.org and read topical articles, publications and blogs.

In the 1940s, Frank Zamboni developed the original ice harvester based on army jeeps. He’s done it in his homeland, Canada. Today, when the number of rollers around the world is huge, the mass production of these machines has been established. Usually, two combines are used to level the ice; they pass the entire arena in three minutes. Today, a synthetic ice rink is gradually being replaced by a skating rink with artificial ice.

Cryochambers

Can you imagine being in a chamber with a temperature of negative 160 degrees Celsius (approximately the same as at the Mars Pole in winter) without clothes? Some athletes go through this physical therapy procedure to relieve pain. Special cryochambers (or cryosaunas) use a mixture of ice and liquid nitrogen to create an environment that helps athletes recover from muscle injuries. And although the method still causes some scepticism among specialists, extremely low temperatures cause the release of endorphins, which can relieve pain. For a session that lasts about three minutes, a physiological chain reaction is triggered. It involves blood circulation, hormonal and immune systems. Similar cryotherapy centres for the rehabilitation of athletes are opening all over the world.

Goal-line Technology (GLT)

Hockey was 2 decades ahead of football, introducing goal-line technology (GLT) in 1993. It is thanks to this technology that immediately after scoring the hockey goal, a bright light instantly lights up, which adds entertainment value to the games. Such enjoyment can be also added by making bets, and the best place to do so is Meta.reviews.

In official matches of the Champions League, goal-line technology (GLT) became a mandatory technology only in the 2018/2019 season. You can find the corresponding changes in the UEFA rules.

Composite Tennis Rackets

Before the use of composites, tennis rackets were made from heavy wood, and therefore athletes spent a lot of energy just holding the racket in their hand. Also, they had a smaller impact and broke at the very first throw on the court in the heat of the match. 

Modern composite racquets are not easy to break, although they can be bent. Tennis players quickly switched to a new type of racquet due to better control and stronger shots.

Hawk-Eye

Until 2006, tennis players and referees were constantly arguing about whether the ball hit the field. Even on the video replay, sometimes it is not possible to determine exactly where the small tennis ball hit. Hawk-Eye technology has been developed to transform video into crisp 3D images that show the point of impact of the ball on the field. Following successful tests, the Hawk-Eye has become a must-have technology in official tennis matches, rewriting the sport’s rules.

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