Adept's new Lynx mobile robot, a self-navigating AIV, is designed to move material from point to point in environments that may include confined passageways and dynamic and peopled locations. The Lynx system supports payloads of up to 60kg, utilizes digital maps for localization, and manages power and self-charging operations. (Source: Adept Technology)
With companies like Google pouring software effort into driverless vehicle technology, maybe they will try to "learn" the environment or maybe link GPS information to their mapping capabilities. They have the $ to do whatever they want, or so it seems.
You are probably right, a.sajl, but maybe at some point there might be a cost effective way to adapt this technology. It will probably be too high at the moment, though, although I do believe a lot of smart people are working on the problem. Then again, I'm fine with the fact that humans still need to be behind the wheel to drive cars!
Elizabeth: That would be great but the cost too will be very high for sure. I also feel that if we can embed some AI features to these atuomobiles, it would be something which might facinate the world. It will definitely be a new things for sure but it will also allow the companies to think beyond the box.
Thanks for the info! So it is specific to this application and that might be difficult to apply to the unpredictability and varibability of a car's environment. But you never know...the people inventing these robots are quite clever and could find a way.
Ann, Medical is a target for this technology. Potential applications include deployment into hospitals in the form of a courier, such as a nurse that needs to get medication from a pharmacy up to the patient's ward. The pharmacist would place it into one of the units, and even have it go up on an elevator to the patient's room. That saves the highly trained clinician that time to transfer the product.
Ann, Medical applications are part of the target for this technology. Applications include deployment into hospitals in the form of a courier, such as a nurse that needs to get medication from a pharmacy up to the patient's ward. The pharmacist would place it into one of the units, and even have it go up on an elevator to the patient's room. That saves the highly trained clinician that time to transfer the product.
This reminds me of a fun robot that I worked on in the early 1990's. It was a kind of "tug" or autonomous tractor that pulled trailers loaded with material from A to B in a factory. It was Laser guided and had the usual Ultrasonic proximity detectors for object aviodance. It triangulated it's position every few milliseconds and so could go "off path". The task was to back up and dock with a full trailer at point A, haul it to the drop off point B, release it, then pickup an empty trailer and haul it back to point A. Then repeat with a nother full trailer. The payload was several 1,000 BIC pen barrels for assembly. Very reliable.
From time to time, I see AGV's in industrial environments, but they do not seem to have taken off like the ATM machine, kiosks, etc. What are (or will) some applications be that will really make AGV's become a mainstream part of the workforce?
Advertised as the "Most Powerful Tablet Under $100," the Kindle Fire HD 6 was too tempting for the team at iFixit to pass up. Join us to find out if inexpensive means cheap, irreparable, or just down right economical. It's teardown time!
The increased adoption of wireless technology for mission-critical applications has revved up the global market for dynamic electronic general purpose (GP) test equipment. As the link between cloud networks and devices -- smartphones, tablets, and notebooks -- results in more complex devices under test, the demand for radio frequency test equipment is starting to intensify.
Much of the research on lithium-ion batteries is focused on how to make the batteries charge more quickly and last longer than they currently do, work that would significantly improve the experience of mobile device users, as well EV and hybrid car drivers. Researchers in Singapore have come up with what seems like the best solution so far -- a battery that can recharge itself in mere minutes and has a potential lifespan of 20 years.
Some humanoid walking robots are also good at running, balancing, and coordinated movements in group settings. Several of our sports robots have won regional or worldwide acclaim in the RoboCup soccer World Cup, or FIRST Robotics competitions. Others include the world's first hockey-playing robot and a trash-talking Scrabble player.
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