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No Servant, Japan's Build-a-Robot Delivers Joy
isabotage3 writes to tell us that a new Japanese build-a-robot product may offer up a bit more participatory joy than models past. Even though it took this novice reporter over eight hours to assemble he still seemed to think that the end result was worth it. With a quick interface that allows everything from basic movement mapping to complex dance and aerial maneuvers, this robot seems to offer the user an experience far removed from the ASIMOs and AIBOs of years past. From the article: "You don't have to be a scientist, or even very smart, to play with Manoi AT01. But there's a catch: A lot of work is required to get it going. The $1,260 machine, which can walk, wave its arms and do other simple moves, comes in a kit that requires assembly — a sprawling, mind-boggling concoction of matchbox-size motors, plastic Lego-like parts, twisted wiring, 200 tiny screws and a 100-page manual."
And here I am with my lego monster and no money... heh
...or does that "catch" sound like a damn good reason to buy it?
[command INSERTWITTYQUIP failed: insufficient wit]
"a sprawling, mind-boggling concoction of matchbox-size motors, plastic Lego-like parts, twisted wiring, 200 tiny screws and a 100-page manual"
call that hard? you've obviously never made an airfix plane. At least here you get all the screws/wires you need!
*''I can't believe it's not a hyperlink.''
taking over the world
... you didn't forget to RTFM.
OK, so a good after dinner project for any decent engineer here.
What's the big deal? RTFM, put it together, and play.
I can't be the only one who did 10k-piece puzzles as a kid, and those only had a picture.
- Adam L. Beberg - The Cosm Project - http://www.mithral.com/
one more step towards the glorious rule of Robot Nixon.
The theory of relativity doesn't work right in Arkansas.
The article mentions that this is a Manoi robot. A spot of online searching leads me to this MPEG video.
Cheers,
Ian
I thought "Build-a-Robot Delivers Joy" was a euphamism for "custom built sex android."
a sprawling, mind-boggling concoction of matchbox-size motors, plastic Lego-like parts, twisted wiring, 200 tiny screws and a 100-page manual
... Sounds like fun.
Rome taught me patience and assiduous application to detail. Virtues which temper the boldness of great, general views.
If you're interested in these things, you should also compare the featureset (hardware AND programmability) of other Japanese robotics kits. Two come to mind: the Kondo KHR-1 / KHR-2 series, and the Robonova series. There are others, but these two seem to have solid support and continual development. The Robonova has a nice feedback system, allowing you to hand-pose the robot and "snapshot" that pose, and then you string together all the poses into various actions. It's almost like you're programming it via stop-motion modeling.
One area I think that most are weak is that of vision support. I'd like to work with recognizing various symbol targets (even barcodes or stripes) and get specific command feedback. Also, this scale of robot is just now getting familiar with gyro inputs, but it's not like it's suddenly able to walk up inclines and catch itself falling. They seem best able to work in a very simple flat-smooth environment only.
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They are like 50 bucks and are easily hackable and have a great community. Dropping 1200 dollars for something that you might feign interest in online without understanding the tedious nature of the mechatronic engineering involved is silly.
That is SIMPLE compared to my Tamia Frog!
Except that a Heathkit of any decent complexity took a helluva lot more than 8 hours to assemble. Man I wish those were still around. Spent many an hour putting together dozens of those kits, INCLUDING a robot.
Remember "News for Nerds, Stuff that Matters"? Help make it a reality again! http://soylentnews.org
Heh heh, the frog. That thing was so cute. I had a hornet, but I threw it away. My first R/C car was actually a futaba FX/10, which is basically the same shitty quality of shitbox. Anyway, try building a modern R/C car sometime, AWD, slipper diffs are always standard... I think just the front end of my schumacher SST2000 has more parts than your frog did :)
"You're right," Fisheye says. "I should have set it on 'whip' or 'chop.'"
Now, that would be cool.
How we know is more important than what we know.
Would have been helpful if the submitter included a link to a PICTURE of the robot, which the article didn't either...
I found it here. And in English.
Tequila: It's not just for breakfast anymore!
"a sprawling, mind-boggling concoction of matchbox-size motors, plastic Lego-like parts, twisted wiring, 200 tiny screws and a 100-page manual."
sounds like the last compaq I worked on.
Ummm, not to be a racist or anything, but wouldn't reading a 100-page instruction book translated from Japanese be considered torture in some countries?
1. Please to put little engine 3X later than subassembly YY.
2. Set us up the arm, but not to be rotated wisely.
3. Enjoy super happy fun robot!
...Tetsuwan Atom, aka Astroboy. The Tezuka estate is probably not too happy about that.
Knowledge is power. Knowledge shared is power multiplied.
The assembly is about typical for a Kyosho product. Try building one of their better 4WD R/C cars, with a working suspension, transmission and differentials to assemble. Very similar experience.
The actuators for this robot are apparently still output-only R/C PWM-type servos. The competitive product Robonova, though, has position and current feedback from the servos to the control computer, which moves it out of the dumb preprogrammed category into something that has potential for real autonomy.
The sensor suite on these things is still below par. These things really need a 6DOF inertial navigation system for balance, which means three rate gyros (about $22 each) and three accelerometers (about $6 total). They need force sensing in the feet and hands. With that, a camera, and a WiFi link to an external computer, you have almost ASIMO-level hardware functionality. I'll bet we see all that in a year. It's the obvious next step.
Then the problem is to develop software for robust legged locomotion. There's been work on that, but most of it is with expensive one-off machines. Once that moves to commercial robot hardware in the $1K range, progress will be rapid.
I can never get these things to function longer than a week.
The hardest part of that would probably be the "search for part" routines. It would be pretty easy to tell it where to put any given part, but getting the part would be hard unless they were laid out very carefully, which would be almost as much of a task as building it.
Finally, hardware I feel comfortable programming with Ruby.
There's a heck of a lot of things that are hard about that problem. I do, however, think we have the technology to do it. The Scale-Invariant Feature Transform algorithm is now 2 years old. There are open source implementations and many demonstrations of it being used effectively. This algorithm makes recognising parts something you can do in realtime. All the dexterity required to fiddle about with those parts and put them together has been solved a number of times, but mostly by academics who don't commercialize their research, so you'd probably have to solve that again.
How we know is more important than what we know.
... the company will be offering a self-assembly human sized guard robot with automatic laser rifle.
Vintage computer adverts: http://www.vintageadbrowser.com/computers-and-software-ads
http://video.google.ca/videosearch?q=manoi
pretty cool robot. still not springy. once they will be able to use inertia in robots, instead of ignoring it, thats when robots will be life-like.
This 'droid is the *perfect* size and shape. You add a standard male doll face, red hair, striped shirt, blue overalls...
Back when I was a kid, to scare your little sister half to death you needed to do some puppeteering with a My Buddy doll. Kids these days have such cool toys.
What is Japan's obsession/fascination with robots? Is that fascination really that much bigger than in other countries, or is that just my perception? Is there some historical reason for this?
Does it run Linux?
You should try Meccano. As they say in the movies, that shit is wack.
Show me the video, I know you have it! I want to see the motorized fuckin' spreeeeee!
I will settle for some Lesbian STRAPON porn though...
Now, I wonder if I can get my Robosapien to assemble it?
Never play chicken with a passive aggressive.
"You don't have to be a scientist, or even very smart, to play with Manoi AT01."
I think I'll wait for the Womanoi TA36-24-36.
If you can read this sig, you're too close.
Interested minds are waiting to acquire one that adapts... to. their. neeeeds.
Yuri Kageyama is a she, not a he.
"No one likes working in a hamster wheel, and your shop smells of cedar shavings from here." - TaleSpinner
i'd rather be called a whiny bitch than live my life as a cowardly bitch. cowardly bitch.
The theory of relativity doesn't work right in Arkansas.
Dads destroy FunBots
Why do you have to solve it again just because the research wasn't commercialized? If it was solved by academics then the research would have been published. It just means you can't just go out and buy a prepackaged solution--what's the fun in that? If it had been solved by private companies then they might not release the privately conducted research, and you'd be forced to solve it again and possible get sued for solving it. Academic research, unlike commercial research, is shared with other researchers and those interested in the research. If you're waiting for someone to sell you a prepackaged solution then you aren't a researcher or hobbyist. You're just a consumer.
For that much money it had better be at least five feet tall and look good in a wig!
The race isn't always to the swift... but that's the way to bet!
No. See, in academia, you solve a little reduced set of the problem. To commercialize your research you have to actually expand the work to include real world problems and until you do that, academic research is about a useful as poetry.
How we know is more important than what we know.
Your plastic pal who's fun to be with!
...Welcome our new custom built robot overlords
*Runs*
can you imagine a beowulf clust....
never mind
I want my Clan Built Timberwolf Mech damn it!
In the not too distant future, next Sunday A.D.
A 100-page assembly instruction manual? Who cares... I never read manuals anyway.
To avoid going into detail: Lord Oda (anyone ever play shogun total war?) introduced the practice of using arquebuses in warfare at the battle of Nagashino http://en.wikipedia.org/wiki/Battle_of_Nagashino/ they were therafter used with great succes in battle until the victory of Tokugawa (who succesfully scared his enemies into joining him through the use of firearms, in mid-battle) at the battle of Sekigahara.
Tokugawa then proceeded to ban the use of firearms from battle, considering them to be an unfair advantage, dishonorable, etc. However, guns had become extremely popular in japanese warfare, giving rise to a large caste of gunsmiths, all of whom lost their job due to this imperial decree.
These gunsmiths then proceeded to turn their attention away from crafting firearms, instead focussing on mainly technological gadgets (we're talking 17th century here) like clockworks. Herein we find the roots of Japan's culture of small and intricate parts.
I learned all of this during my travels to the country, while assembling what felt like a few-thousand piece gundam with a Japanese friend of mine, asking myself the very same question "what the hell is up with all these microscopic parts?"
What a boring video :-( I understand something else under "Delivers Joy". Guess I'll have to stick with my USB battery powered realdoll.
If you want a robot that's relatively cheap (~$500) and easy to build, check out TeRK (Telepresence Robot Kit). It's got easy step-by-step instructions and even pictures of all the tools you need, in case you don't know what a 3/32" Allen Wrench looks like. Pretty cool stuff.
Then why do you have to "solve that again". So it's an incomplete solution, you are free to build on it. No? Even if not, every bit of information helps.
This is just like the old Heathkit HERO-1 concept. Spend a fortune for a personal robot and have fun putting it together first.
I also want to see something like a Mr. Wizard, Jr. appearing on a new children's cable station using this robot to explain how robots work.
I want to see a new version of Starcade giving these things out as Grand Prizes on their show, like they did with the RB5X
Change its name to something swedish-sounding, and sell it through IKEA.
Yuri may have loved her robot like a proud parent, but until they can build one with kokoro, it will never love her back.
meow
Only researchers that develop commercial products contribute to the advancement of technology? So Einstein made no useful contribution to the sciences or society because he never commercialized any of his research?
Academia has always been at the forefront of science and technology. Commercial ventures only step in after someone finds an angle to make money from the innovations established by academic research.
Where do you think all the first nuclear scientists came from? They sure didn't come from commercial research divisions since no nuclear power companies or any other commercial companies existed which had any previous use for nuclear power or nuclear physicists.
And what do you think was harder, creating the first sustained nuclear reaction/pioneering nuclear fission, or commercializing that research? Which takes more genius and talent? I'm guessing there's a lot more people who can commercialize the research than there are who can conduct the initial research so there would be technology to commercialize in the first place. Usually those who commercialize the research are simply people with the business acumen and funding, not necessarily people who are particularly knowledgeable in the field--they recruit academic researchers for that.
We're not talking about breakthroughs here, we're talking about masters and phd students who "build a robot to play chess".
How we know is more important than what we know.
You said "academic research"--that means all research done at colleges and university labratories, including masters and phd students. The point is, their research is published and shared, not hoarded as "trade secrets" or patented inventions/methods. Being commercialized just means that you can go out and purchase a ready made product. That is of no use to those truly interested in robotics--such as robotics researchers and scientists in academia. What is useful is published research--most of which comes from academia rathe.
Some of it is useful - to academics. But if what you're trying to do is build a product, most of it is not useful. Most of it is over-optimistic, self-congratulatory, totally disconnected from real applications, pulp. But it's not just academic research that is like this, when it comes to robotics even the commercial labs don't actually produce anything that is useful for building products. The few companies that are actually producing robotics products largely ignore the latest advances in the field, like bipedal walking or vision, cause the research is just too out-there to be useful, right now. Maybe in another 10 years time we'll see products being produced that use the academic research of today, but that will be after 100 grad students have been forced to build on that research so it is reasonably fleshed out.
How we know is more important than what we know.
So academic research isn't useful because it's too advanced, and therefor it's over-optimistic, self-congratulatory, and totally disconnected from real applications? Funny, most research grants are only given out if the researchers can prove that their research has real-world applications. Just because it may take 10 years for the research objectives to be attained doesn't mean it's useless. Academic researchers are basically tackling the hardest proprblems in the world of robotics today, and once they've solved the difficult problems that take 10 years to solve, others can benefit from the research with only minor logistical obstacles to overcome.
What exactly is your complaint against academic research? That you can't make use of it because you don't have the foundational knowledge or the education to understand it? If you want to understand leading edge research and be able to make use of it, you need to pursue an advanced degree in those areas--why is that such a big surprise? Ofcourse only leading researchers in a field can use leading research in that field. Those innovations can only trickle down after many years because the research was done in the first place. So your complaint makes little sense. Without people researching the bleeding edge stuff, there would be no progress in any technological field.
And commercial companies ignore the latest advances because they don't want to invest in the R&D of those technologies since they see no immediate financial returns to be gained. That is the difference between commercial research and academic research. The commercial ventures will wait until the work has been done for them by academic researchers and they see the technology as a sound investment before they will put money into it. In short, they only care about money, not the advancement of science or technology. Your last sentence is illogical--think about it for a moment.
Honestly, I don't think you know what you're talking about. You've obviously never tried to take academic research and make a product from it, so do just bugger off please.
How we know is more important than what we know.