Japan company developing sensors for seniors

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Japan's top telecoms company is developing a simple wristwatch-like device to monitor the well-being of the elderly, part of a growing effort to improve care of the old in a nation whose population is aging faster than anywhere else.

The device, worn like a watch, has a built-in camera, microphone andaccelerometer, which measure the pace and direction of hand movements to discern what wearers are doing - from brushing their teeth to vacuuming or making coffee.

In a demonstration atNippon Telegraph and TelephoneCorp.'s research facility, the test subject's movements were collected as data that popped up as lines on a graph - with each kind of activity showing up as different patterns of lines. Using this technology, what an elderly person is doing during each hour of the day can be shown on a chart.

The prototype was connected to a personal computer for the demonstration, but researchers said such data could also be relayed by wireless or stored in a memory card to be looked at later.

Plans for commercial use are still undecided. But similar sensors are being tested around the world as tools for elderly care.

In the U.S., the Institute on Aging at the University of Virginia has been carrying out studies in practical applications of what it calls"body areasensor networks"to promote senior independent living.

What's important is that wearable sensors be easy to use, unobtrusive, ergonomic and even stylish, according to the institute, based in Charlottesville, Virginia. Costs, safety andprivacy issuesare also key.

Despite the potential for such technology in Japan, a nation filled with electronics and technology companies, NTT President Satoshi Miura said Japan is likely falling behind global rivals in promoting practical uses.

Worries are growing the Japanese government has not been as generous with funding and other support to allow the technology to grow into a real business, despite the fact that Japan is among the world's most advanced in the proliferation of broadband.

More than 90 percent of Japan's households are equipped with either optic fibers or fast-speed mobile connections.

"But how to use the technology is the other side of the story,"Miura said in a presentation."We will do our best in the private sector, but I hope the government will help."

Nintendo Co.'s Wii game-console remote-controller is one exception of such sensors becoming a huge business success. But that's video-game entertainment, not social welfare.

George Demiris, associate professor at the School of Medicine at the University of Washington, in Seattle, says technology for the elderly is complex, requiring more than just coming up with sophisticated technology.

Getting too much data, for instance, could simply burden already overworked health care professionals, and overly relying on technology could even make the elderly miserable, reducing opportunities for them to interact with real people, he said.

"Having more data alone does not mean we will have better care for older adults,"Demiris said in an e-mail.

"We can have the most sophisticated technology in place, but if the response at the other end is not designed to address what the data show in a timely and efficient way, the technology itself is not useful,"he said.

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Self-correcting robots, at-home 3-D printing are on horizon, says researcher at AAAS

Robots that can self-improve and machines that"print"products at home are technologies soon to become increasingly available, said Cornell's Hod Lipson at the 2011 American Association for the Advancement of Science (AAAS) annual meeting, Feb. 17-21.

Lipson, associate professor of mechanical and aerospace engineering and of computing andinformation science, said Feb. 19 that robots can observe and reconstruct their own behaviors and use this information to adapt to new circumstances.

Such advances are important because self-reflection plays a key role in accelerating adaptation by reducing costs of physical experimentation, he said. Similarly, the ability of a machine to reconstruct the morphology and behavior of other machines is important to cooperation and competition. Lipson demonstrated a number of experiments on self-reflecting robotic systems, arguing that reflective processes are essential in achieving meta-cognitive capacities, including consciousness and, ultimately, a form of self-awareness.

In a second talk (Feb. 21), Lipson discussed the emergence of solid free-form fabrication technology, which allows 3-D printing of various structures, layer by layer, from electronic blueprints. While this technology has been in existence for more than two decades, this process has recently been explored fortissue engineering. In particular, new developments in multimaterial printing may allow these compact"fabbers"to move from printing custom implants and scaffolds to"printing"live tissue.

His talk also touched on his experience with the open-source Fab@Home project and its use in printing a variety of biological and non-biological integrated systems. He concluded with some of the opportunities that this technology offers for moving from traditionalbiomaterialsto digital tissue constructs.

Lipson directs Cornell's Computational Synthesis group, which focuses on automatic design, fabrication and adaptation of virtual and physical machines. He has led work in such areas as evolutionary robotics, multimaterial functional rapid prototyping, machine self-replication and programmable self-assembly. He was one of five Cornell faculty members who presented at this year's AAAS meeting.

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Putting your brain in the drivers seat (w/ Video)

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(PhysOrg.com) -- Picture driving your car without ever touching the wheel, driving a vehicle that is so user responsive to you that it is literally jacked into your thoughts. It sounds like the technology of the future, something out of a sci-fi movie doesn't it? Well, as it turns out, the future is now.

A team of German researchers, led by Raul Rojas, an AI professor at the Freie Universität Berlin, have created acarthat can be driven entirely by human thoughts. The car, which has been given the name BrainDriver, was shown off to the world in a video that highlighted the thought-powered driving system on a trip to the airport.

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The BrainDriver recordsbrainactivity with the help of an Emotiv neuroheadset, a non-invasive brain interface based on electroencephalography sensors, that was made by the San Francisco-based company Emotiv. The neuroheadset was originally designed for gaming. Like most new devices the human has to be trained in order to use the interface properly. After some practice runs, moving a virtual object, the user can be up anddrivinga modified Volkswagen Passat Variant 3c. The driver's thoughts are able to control the engine, brakes, and steering of the car. Currently, there is a small delay between thedriversthoughts and the cars response.

No word yet on how detailed controls will be for other necessary functions, for example opening the gas cap to fill up. The researchers selected the headset after rejecting several other options, including the iPad and eye-tracking devices.

The car is currently only in the prototype phase and no decision has been made as to whether or not this car will ever be made available to the public when it becomes roadworthy.

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