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Paraplegic’s Robotic Exoskeleton to take First Kick of World Cup

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There are some World Cup Football Teams who you may think need a miracle in order to win the coveted World Cup. But a miracle, of sorts, will take place on the football pitch of the Arena Corinthians in  São Paulo at the opening ceremony of the World Cup at 5pm 12 June (local time). A young Brazilian will take a kick of a football on the centre spot.

But this is no ordinary young man, nor is the kick trivial. The boy, yet to be chosen from a shortlist of nine aged between 20 and 40,will be  a paraplegic. He will rise from his wheelchair and walk to the midfield and then kick the ball. How?

It’s down to Miguel Nicolelis and his team of neuro-engineers and scientists at Duke University in North Carolina. And if the event works as intended, it should spell the end for wheelchairs, and the evolution of mind-controlled exoskeleton robots. Here’s a picture of the robot:

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The mind-controlled robotic exoskeleton is a complex robotic suit built from lightweight alloys and powered by hydraulics. When a paraplegic person straps themselves in, the machine does the job that their leg muscles no longer can. But there are no buttons levers or controls to tell the robot what to do. Only the human brain.

The exoskeleton is the culmination of years of work by an international team of scientists and engineers on the Walk Again project. The robotics work was coordinated by Gordon Cheng at the Technical University in Munich and the French researchers built the exoskeleton. Nicolelis’ team focused on what many say is the most difficult bit; ways to read people’s brain waves, and use those signals to control robotic limbs.

To operate the exoskeleton, the person is helped into the suit and given a cap to wear that is fitted with electrodes to pick up their brain waves. These signals are passed to a computer worn in a backpack, where they are decoded and used to move hydraulic drivers on the suit. There’s a battery that powers everything, with a two hour life before it needs re-charging.

Nicolelis releases video with robotic exoskeleton in action

The operator’s feet rest on plates which have sensors to detect when contact is made with the ground. With each footstep, a signal is transmitted to a vibrating device sewn into the forearm of the wearer’s shirt. The device fools the brain into thinking that the sensation came from their foot. In virtual reality simulations, patients felt that their legs were moving and touching something. Here’s a diagram showing the details.

Last month, Nicolelis and his colleagues went to some football matches in São Paulo to check whether mobile phone radiation from the crowds might interfere with the suit. Electromagnetic waves could make the exoskeleton misbehave, but they were reassured.

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This is ground-breaking robotic/artificial intelligence/mind-control technology all rolled into one: Let’s keep our fingers crossed that  we will all witness the miracle first kick of the World Cup on 12 June.

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4 thoughts on “Paraplegic’s Robotic Exoskeleton to take First Kick of World Cup

  1. Deep thinking – adds a new dimnosien to it all.

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  2. Andrea Mocellin, a student at the Royal College of Art in London, deisnged the Audi Exo concept, a human powered vehicle that employs the latest exoskeleton and robotic technologies. The effort exerted by the driver is supplemented by a robotics system that multiplies input and reduces fatigue. According to Mocellin, “The target is to create a vehicle that takes us back to the basics of a physically engaging driving experience, but with an automotive quality in terms of materials and technologies.” Both the exterior design and method of propulsion are radical departures from traditional vehicles, though their viability improves as ecological concerns increase. via Swipelife

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  3. It’s a cool design and that’s it,doesn’t show any teicnhcal information or even driver’s seat or controls and without another source of energy i don’t see how robotics system that multiplies input and reduces fatigue it’s hard enough to cycle up the hill even with a really light bicycle!! so with this would be just impossible!!!

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