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| Honda’s Walking Assist with Stride Management: Coming to a Hospital Near You! |
en.akihabaranews.com
If, that is, you’re connected to one of 50 Japanese medical institutions now testing and evaluating a pair of the semi-robotic exoskeletal assistive devices. Honda breaks down the what’s-it-do-and-how as follows:
“The [Walking Assist Device’s] control computer activates motors based on information obtained from hip angle sensors while walking to improve the symmetry of the timing of each leg lifting from the ground and extending forward, and to promote a longer stride for an easier walk.”
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| Shoppers utilizing Rascals at Wal-Mart |
Honda’s worked closely with several medical institutions throughout development of the Walking Assist Device, but last week’s announcement of the 100-unit roll-out signals what is effectively their flagship field testing effort; a medical trial to collect feedback and evaluations from professionals and patients, and data from the devices themselves, of course. But it’s much sexier than your average medical trial. Because robots. Obviously.
Each rehabilitation and/or physical therapy-focused recipient medical facility gets one medium- and one large-sized device. Details on the cost and duration of the leases haven’t been disclosed, but we do have the following specs:
If successful, the devices will very likely see wider domestic trials, possibly moving beyond rehabilitation and making their way into the homes of Japan’s rapidly aging population. In addition to recovery, the Walking Assist Device could provide just the boost needed for walking to the grocery store, visiting a friend or family member, a healthy stroll around the shopping center, or, for Japan’s endangered farming population, 50% of whom are within 5-10 years of retirement, another trip out to the field.
Given sufficient demand, and should they be cheap enough to produce, the Walking Assist Devices could perhaps be enlarged for populations a bit more… uhhh, let’s be nice and say “a bit more robust.” Among other developed nations, the U.S. also has a growing population of retirees who’d definitely appreciate the extra spring in their step. But Honda, remember, you’re going to need some bigger springs. Sorry about that. It’s a problem. Sorry.
Honda’s Ongoing Assistive Robotics Commitment – Respect Due:
While Honda began specific work on walking-assist devices in 1999, the devices weren’t widely public until 2009. Differences between the current and early iterations are visible in the main image above: on the right and left are the earlier, bulkier, more metallic devices – the middle image, included in last week’s press release, shows the sleeker, current model (the middle image has actually been out in the wild for at least a year, so one assumes the 50 medium and 50 large devices now shipping are the same, possibly with some under-the-hood upgrades and/or modifications).
Unless you’re of a certain level of robo-dorkiness, you might not know that Honda’s actually been pounding away on bipedal humanoid robotics tech since the mid-1980s. You might be unaware of their proactive efforts toward addressing Japan’s aging population crisis through assistive robotics (Akihabara News coverage). And, you could have missed news that Honda’s pursuing a robotics-in-the-home partnership with Sekisui House (even more Akihabara News coverage!).*Cars, ATVs, a lawnmower perhaps, maybe a sprinkling of ASIMO – that’s the standard mental image of Honda.Consider upgrading?
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Crashed spaceship pilot unaware co-pilot unlocked brake
Pilot Peter Siebold told the National Transportation Safety Board that he was not aware co-pilot Mike Alsbury had pulled a brake-unlocking lever before the rocket designed one day to fly tourists to the edge of space was done accelerating. Seconds later, SpaceShipTwo began to disintegrate over Southern California.
Protocol for the flight was to announce the unlocking, an agency spokesman said.
It is not clear if Siebold didn’t hear Alsbury or the co-pilot never indicated he was taking the action. The safety board plans to analyze flight audio next week, spokesman Eric Weiss said.
Virgin Galactic and said it could not comment on the investigation and referred questions to the NTSB. Siebold has not spoken publicly.
Pilots and co-pilots typically agree in advance before making important decisions, said Michael Lopez-Alegria, a former space shuttle astronaut who now consults on commercial space flight. One method is a “challenge and response” system in which one voices an intended action and the other confirms it before the action is taken.
Lopez-Alegria said he did not know whether the unlocking of SpaceShipTwo’s brakes was considered critical enough to require agreement, but “you would never take that action on your own.” He noted that in the cockpit of a commercial airliner, the pilot and co-pilot call out and confirm an action as routine as raising the wheels after takeoff.
The Oct. 31 crash about 120 miles north of downtown Los Angeles killed Alsbury, injured Siebold and cast a shadow over the immediate future of space tourism. It could take a year for the NTSB to determine the cause, though Virgin Galactic CEO George Whitesides said last week the company wants to resume test flights as early as next summer with a replacement craft.
The eventual goal is to launch spaceships carrying six passengers from a spaceport in New Mexico. For their $250,000 ticket, passengers would get a fleeting feeling of weightlessness and a spectacular view of Earth from about 62 miles up.
Pilot Siebold was hospitalized after the crash, but when he spoke to investigators Friday he had been discharged.
He told them that he was flung from the vehicle when it disintegrated. He said he unbuckled from his seat at some point during his fall that began miles above Earth, and his parachute deployed automatically.
Investigators have not revealed the exact altitude of the breakup, but previous SpaceShipTwo test flights peaked at about 10 miles, much lower than the height expected for commercial flights.
Co-pilot Alsbury could be seen on inflight video unlocking the system before the vehicle had reached Mach 1.0, Hart has said. The feathers aren’t supposed to be unlocked until the craft reaches Mach 1.4, or more than 1,000 mph. At that point, it would have reached an altitude where the thinner air would not have provided so much violent resistance.
Even after Alsbury unlocked them, the feathers were not supposed to move. For that to happen, the crew would pull a second lever. The crew didn’t take the second step, but the system engaged anyway. Two or three seconds later, the craft began to break apart.
The NTSB has said the feathers could have deployed because of aerodynamic forces on the craft. The agency said Wednesday that it is looking at those forces and reviewing safety documentation and the feather system’s design.
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Associated Press writers Brian Melley and John Antczak contributed to this report.