It's no wonder it was a big highlight f the show. Action Sports has been a catalyst for new trends for several years now. Technology in fashion is one example. The industry has also been a great agitator. The growth of Go-Pro accelerated crowd-sharing in a fun way.
And, it's great too see technology supporting the health of athletes. This can be used to keep track of, not only winning techniques, but also any degenerative effects on the body.
As a self-avowed data junkie, I think this is really cool technology. I remember working 25 years ago on some Virtual Reality projects where we were trying to map the body in 3D space. Some of it eventually translated into telepresence programs and gaming, but nothing like the miniature sensors can do now. Just wait until energy harvesting gets integrated into these sensors and then they can go just about anywhere.
Even if surfing has the reputation for being laid back, when it comes to competition, participants will do anything to improve performance. Just look at how performance-enhancing drugs proliferated. If MEMS improves performance, they will get the attention they deserve.
Now if we add a lite, powered, programmed exoskeleton to the person, they can be guided/prompted through the proper movements to enhance performance and to avoid injury. Like an instructor teaches how to fly a plane via dual controls.
Yes, this is like a virtual co-pilot. One application I've seen is that pro golfers and ball players are capturing their expert golf or baseball swings. Users can then match their own swings to the experts to see where they are matching for falling short of the expert's swings.
I imagine this technology has been available for some time in the movie industry, what with millions of budget dollars. Glad to see the form and functionality has advanced to be useful to sporting pursuits.
I have seen applications where Hollywood would dress an actor in a MEMS suit and use the feedback from it to "vitualize" them for use in CGI; much more lifelike than regular computer animation. I think it has been used for video game design as well.
I wonder how far we are from being able to record the perfect golf swing and then compare yours to the one on the screen. We all know several people will do whatever they can to improve their ability in the sports arena. I don't think it will be long before the technology allows everyone to hit the ball like Tiger Woods. Now the interesting part for me will be to see if the perfectly trained athelete will be as good as the naturally trained. Can computers and science replace natural ability? Or will science reach it's limits before human nature which can go the extra mile.
I think this was the technology used in Avatar to get the facial expressions of the actors onto the alien characters. They fitted the actors with facial sensors so they could capture emotional expressions.
MEMS was a nice step forward for moviemaking "mo-cap," Rob. Until they time moviemakers used special suits with luminous markers on them. MEMS gives much more realistic motion, I'm told.
Yes, I can see why MEMS would provide a more realistic depiction of character movement. I would guess that it comes down to a greater degree of data and thus a higher detailed capture of movement.
A few years ago, there was actually a television show called "Sport Science," which was all about measuring athletic performance with sensors. It was actually a good show for engineers.
We looked at a number of sources to determine this year's greenest cars, from KBB to automotive trade magazines to environmental organizations. These 14 cars emerged as being great at either stretching fuel or reducing carbon footprint.
Researchers at MIT and Sandia National Labs have observed a reaction in lithium-air batteries that could help improve the design of these cells for electric vehicles and other applications.
Healthcare might seem to be an unlikely target application for the Internet of Things technology, but recent developments show small ways that big-data is going to make an impact on patient care moving into the future.
As energy efficiency becomes more and more a concern for makers of electronics devices, researchers are coming up with new ways to harvest energy from sound vibration, footsteps, and even electromagnetic fields in the air.
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