Wu and Kong are the latest additions to a pantheon of robot athletes. Sure, their eye-mounted motion-tracking cameras may not make for the most emotive games you’ll ever see, but we can’t help but be impressed by all those precision shots. The robot twins were developed at China’s Zhejiang University and, we’ll admit, compared to getting hustled at pool or being struck out by a baseball robot, there’s something a bit friendlier about a game of table tennis with our future oppressors. You can marvel at the duo’s bionic backspin in action after the break. We’re massive Wu fans.
Generally the words “roach” and “adorable” don’t get thrown together. But, one look at the video after the break and you’ll understand. This six-legged successor to UC Berkeley’s DASH scampers not just horizontally, but vertically — so long as the material it’s climbing is cloth. All motion is handled by the bot’s front four legs, while the rear two provide stabilization. The CLASH is able to adhere to cloth because its feet have small claws that allow it to grip the fabric, while its appendages scurry about at up to 34 strides per second. Its top speed of 24 centimeters a second may not sound like much, but considering the pest-inspired design is only 10 centimeters long, it’s actually quite a brisk pace. Trust us, you don’t want to miss watching it in action after the break.
Old PR2 can already fold towels, play pool and grab an ice cold beer — really, the Willow Garage robot is just one task of short of mastering the day-to-day activities of your average college student. What’s that? It can get a sandwich, too? Never mind. And this isn’t just any “get me a sandwich” command — the stout white ‘bot uses semantic search to infer possible locations for sandwich, using knowledge of similar objects and environmental models. In the below video, you’ll see PR2 make its way to a refrigerator, in search of sustenance, only to come up empty-clawed. Undaunted, it hops on an elevator and makes its way to a Subway sandwich shop. The joint project from the University of Tokyo and University of Munich was recently shown off at recent robotics conference. No word on when PR2 will be programmed to hold the onions.
If the name Cyberdyne doesn’t immediately ring a bell, its HAL (Hybrid Assistive Limb) robotic suit sure will. Here at CEATEC, we bumped into these folks who kindly offered to strap us onto their latest prototype arm — a slightly smaller variant of the one installed on Cyberdyne’s current suit. Most of the HAL’s main part was strapped to the outer side of our upper arm with velcro, while our wrist was tied to the much smaller extendable piece; both parts were hinged together with a power unit. Additionally, a sensory pad was applied onto our forearm’s medial cutaneous nerve (around the elbow area) to pick up our muscular nerve signal — similarly, Cyberdyne’s lower-body exosuit requires two sensors on each leg.
Our HAL was energized as soon as we tensed our arm muscles, so lifting up the tray of four 1.5kg water bottles was a piece of cake consistently throughout the demo — we even managed it with just our pinky (see video above)! And as soon as Cyberdyne’s lovely assistant Fumi turned the dial down, our superhuman powers were instantly taken away. We weren’t given any dates or specs for this piece of kit, but if all goes well, we may well see a brand new full-body suit at CES 2012 in January, so stay tuned. Oh, and can someone please get Cyberdyne some WD-40?
Hey, look Engadgeteers! It’s another Kinect hack — except this one uses a real deal robot. Honda ushered ASIMO out to the crowds at IEEE’s 2011 International Conference on Intelligent Robots and Systems to show off its newly acquired pop and lock skills. Alright, so the silicon-gutted fella can’t krump with the best of’em yet, but he can probably do the locomotion — it all depends on your dance repertoire. After toiling away in their mad scientist lairs, the researchers behind the bot have managed to devise a means of mimicking human movement that translates mapped points on a user’s upper body into real-time, robot-replicated motion. The devious among you are likely imagining left-of-center uses for the tech, but let us deflate that mischievous balloon; there’ll be no instances of “stop hitting yourself ASIMO” here, as engineers have built-in collision and stability safeguards. The so-lifelike-it’s-Uncanny advancements don’t end there either, as ASIMO now also contains a database of text-inspired gestures — giving our future robot friend a means of physically expressing his cold, “I hate you so much right now” robo-tone. Other than finding himself at home in Italy, these innovations are sure to put ASIMO on the other end of our remote-controlled behest. Click on past the break to see this automated mime drop it like it’s hot.
Perhaps calling an immobile plastic bug with explosives strapped to its underside a “jumpingrobot” is a bit of a stretch, but who are we to argue with the Army Research Laboratory and the University of Maryland. The two groups have collaborated to create a pair of “robots” that measure just a few millimeters in size but can jump several centimeters in the air. One uses a spring like mechanism (which an operator must press down with a pair of tweezers) to propel it, while the other uses a small rocket, which can be triggered either by current applied over wires or a phototransistor (for untethered flight). It all makes for a pretty neat video, which you can find after the break – even if your sister’s Furby was more robot than these tiny things.
This robot is designed to test the iPad 2’s camera app in place of human fingers. Image: Pheromone Labs
There’s no better way to handle a boring, repetitive task than to let a robot do it for you.
Except, of course, if it’s a Lego robot. How much cooler can you get than that? (Answer: Not much.)
That’s exactly what Pheromone Labs did when they were tasked with manually testing the iPad 2’s camera app 10,000-15,000 times. They used a Lego Mindstorms kit to build what essentially boils down to an automated poking machine.
It works using a capacitive touch iPad stylus as a giant finger, driven by a set of motors. The finger pokes the iPad’s on-screen photo capture button over and over in what amounts to an infinite loop (so to speak). The robot setup uses a cardboard box placed on a desk with an iPad 2 secured inside, almost like a little photographic robo-cinema.
It’s a win-win situation. Developers get to work on less mundane tasks, while an unemployed robot gets put to work.
Thank goodness Pheromone Labs didn’t decide to just hire a poor intern to do this job.
Aw, this little cutie is so adorable — until she denies you pizza and cheese fries. Autom, the 15-inch talking droid we first caught a glimpse of last year, is back and available for pre-order. Using the LCD touch screen, hungry dieters are prompted to enter daily calorie consumption and exercise habits — to which the robot will respond kindly to keep you motivated. With face-tracking capabilities and a killingly sweet death stare, Autom is always watching, which might just make you feel guilty enough to skip the dip. The lady bot costs $195 for the deposit and $670 for the device through company’s website. Slated to ship in 2012, apparently aiding the impending robot apocalypse doesn’t come cheap. Check out little Autom in action after the break.
The yellow blob-like My Keepon is a small stationary robot that reacts to touch and music. It’s been tickling audiences over the web for years, but in a month from now, you’ll be able to take home one of your own.
We got a chance to check out a final production prototype of My Keepon in real life. It’s no Wall-E or Jonny 5, but if you’re looking for a dancing companion who won’t steal the spotlight, it’s an entertaining addition to your desk or bookshelf.
My Keepon has two modes: music and touch. In music mode, it listens for a rhythm using sophisticated beat detection software. It can either detect strong beats, like hand clapping or drum hits, or listen in a different way to react to more complicated music. The “dancing” is a mix of squirming up and down, leaning side to side and rotating around his base, and the style varies depending on the music being played. You can choose which mode you want it in with one of two buttons toward the bottom of its black base.
The robot has a sensor on its head, a mic in its nose and sensors all around its belly. You can scratch its nose, bop its head, or poke it in the side or the stomach, and it’ll react with a combination of sound and movement.
“He doesn’t like being poked in his butt,” said Marek Michalowski, co-creator of the robot. When My Keepon is poked in the rear, it issues an indignant exclamation and sometimes turns around to “see” who did it.
The robot was responsive to the various stimuli Michalowski and I put it through. It sometimes had trouble finding the beat of more mellow tunes, but a quick song change fixed that (and who wants to rock out to Celine Dion anyway?). The prototype we used was responsive to pokes, prods and hugs when you squeeze both sides of its spherical body, and the little sighs and squeaks, beeps and boops, are completely giggle-inducing. If I had one of these at my desk, rest assured my productivity level would go way down (and my coworkers might hate me). Unfortunately, like many toys there is a degree of novelty to My Keepon that could get worn after a handful of uses and leave it dusty and forlorn on a bookshelf.
Though the robot is cute (and fun!), it’s also dancing for a good cause. Michalowski helped develop the $30,000 original Keepon used to study social interaction with autistic children. A portion of proceeds from the My Keepon toy go back toward putting more research Keepons in the hands of clinics working with autism.
As the consumer version of the robot won’t run you $30,000, it’s obviously a bit of a downgrade. For instance, the research version of the robot is made of silicon rubber; the consumer My Keepon is made of a similar, cheaper material able to be mass-produced. The consumer version also lacks a camera, which the research version includes for tele-operational purposes.
The My Keepon robot will be available for purchase in late October for less than $50.
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