I love the way Japan and Korea are developing robotics. I used to say that the Japanese were great engineers but not that great at innovating, I think that perhaps those thoughts should be banished to the dim past.
I’ve written a few blogs on robotics, such as about the plans in Korea to have a domestic robot in every household between 2015 and 2020, ironically I mentioned HAL9000 from 2001 A Space Oddysey in that blog.
The latest innovation greeting the media this week has been the new Japanese Robot suit from Cyberdine, also called HAL, but this one is a robotic prosthesis. HAL stands for Hybrid Assistive Limb and uses the faint nerve impulses when your brain tries to control weak or damaged limbs.
This technology has been under development for several years, but it looks like it is ready or the market, as demonstrated in this video taken recently in a Japanese hospital.
What seems remarkable to me is that this robot will soon be available for purchase in Japan for a little over US$4,000! This means that these devices will be accessible for less than the cost of an average surgery and could perhaps be of major assistance to people on waiting lists for hip replacement or other limb operations.
One of the great features is that the exosceleton, if I can call it that, supports its own weight, so isn’t an extra burden on the person wearing it. This offers people with disabilities an amazing opportunty to live and do ordinary, but also extraodinary things. For example during testing 2 years ago, Seiji Uchida, a quadraplegic was able was able to climb a mountain on the back of a climber using a HAL suit.
Of course this brings in the Six Million Dollar Man question. If this is what disabled people can do, what could able bodied people achieve with one of these?
Of course the military have been working on projects like these for a long time. DARPA have for several years been working on exoskeletons that can help people carry more weight, run faster and of course have much more strength when needed.
Other scenarios where these could be used would be in civil emergencies such as earthquake rescue, where immediate strength could speed the release of people trapped under rubble.
The immediate opportunity is to alleviate suffering of people with injuries or issues such as arthritis, but there are likely to be lots of people queuing up for the opportunity to become super people, or perhaps super heroes, or of course super criminals, but I don’t want to go there.
Day to day operations of emergency services could also benefit from this technology. In the hands of fire services, police, paramedics and others, this technology could be brilliant.
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