Toyota’s Human Support Robot is shown here picking up an object that’s been dropped, and retrieving objects from both a table and a high location. The robot, developed as part of the company's Toyota Partner Robot series, is meant to help elderly people or those with limited arm or leg mobility perform everyday tasks more efficiently and easily in the home. (Source: Toyota)
Nice development by Toyota. Always a forward looking company. It made me smile - partly because I could imagine having such a helper one day. The "mature citizen" of the future just may have this machine, an automatic floor sweeping robot, maybe even an automatic "closet" that can help them get dressed. It will be a very different world from what our parents experienced.
Charles, I agree. I want a robot to look like a machine, not my next door neighbor. I understand that for some individuals to accept a robot it has to have a warm and pleasing appearance and the Toyota robot is in cusp of providing it. Rethink Robotics' Baxter I believe has achieved the warm pleasing appearance attribute.
Creepy is relative. I can remember bosses being "creeped out" by email when it first came into the workplace. Could we do business without it today?
On a more similar note, realistic animation had several hurdles because of the uncanny valley hypothesis. People just weren't ready to see a "not quite human" reality on screen. Designers have worked around that by using more realistic effects in anthropomorphic characters (notice how Alex the Lion's hair in the movie Madagascar blows in the wind). Human characters still need to look like animation to be accepted in the main stream but it's slowly changing. Video gaming and adult entertainment have used more realistic animation for years. People are getting used to it.
It's interesting that so many over the age of 60 embrace human-like robots (there must be a pun in there somehow). Typically we only expect children to gravitate towards new technology easily.
Thanks for reporting on this. Toyota also has created another series of robots that help patients and healthcare workers, including the Patient Transfer Assist, the Walk Training Assist, the Balance Training Assist, and the Independent Walk Assist: http://www2.toyota.co.jp/en/news/11/11/1101.html
Ferby, I haven't seen one of those in a while. Once when we were driving from Olso to Stockholm we stopped at a McDonalds in the countryside. The toy in the Happy Meal was a mini Ferby. The main problem with it was that it answered back in Swedish.
One of the longest emerging trends in geriatric healthcare is using robots. In the 90's, many realized that a Ferby (that hamster-like robot toy), could be a good companion to those who were unable to care for pets. Robotics enabled assisted living in already used in in Japan and Europe.
In a recent issue of the IEEE Proceedings on Quality of Life Technology there was a robot with a humanlike body used for a similar purpose. This seems more practical, and probably much less expensive, for a range of simple tasks.
The engineers and inventors of the post WWII period turned their attention to advancements in electronics, communication, and entertainment. Breakthrough inventions range from LEGOs and computer gaming to the integrated circuit and Ethernet -- a range of advancements that have little in common except they changed our lives.
The age of touch could soon come to an end. From smartphones and smartwatches, to home devices, to in-car infotainment systems, touch is no longer the primary user interface. Technology market leaders are driving a migration from touch to voice as a user interface.
Soft starter technology has become a way to mitigate startup stressors by moderating a motor’s voltage supply during the machine start-up phase, slowly ramping it up and effectively adjusting the machine’s load behavior to protect mechanical components.
A new report from the National Institute of Standards and Technology (NIST) makes a start on developing control schemes, process measurements, and modeling and simulation methods for powder bed fusion additive manufacturing.
If you’re developing a product with lots of sensors and no access to the power grid, then you’ll want to take note of a Design News Continuing Education Center class, “Designing Low Power Systems Using Battery and Energy Harvesting Energy Sources."
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