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A zoetrope is a device that contains a disk full with a series of images that make up and animation. A couple of different methods can be used to trick the eye into seeing a single animated image. In the past this was done by placing the images inside of a cylinder with slits at regular distances. When spun quickly, the slits appear to be stationary, with the images creating the animation. But the same effect can be accomplished using a strobe light.
The disk you see above uses the strobe method, but it’s design and construction is what caught our eye. The animated shapes were captured with a Kinect and isolated using Processing. [Greg Borenstein] takes a depth movie recorded while someone danced in front of a Kinect. He ran it through a Processing sketch and was able to isolate a set of slides that where then turned into the objects seen above using a laser cutter.
You can watch a video of this particular zoetrope after the break. But we’ve also embedded the Pixal 3D zoetrope clip which, although unrelated to this hack, is extremely interesting. Don’t have a laser cutter to try this out yourself? You could always build a zoetrope that uses a printed disk.
Kinect recorded, laser-cut zoetrope:
Pixal 3D sculpture zoetrope:
That’s right, Benjamin J. Heckendorn (aka Ben Heck) has started churning out episodes of his own Internet TV show. We finally got around to watching the first episode and enjoyed it greatly. You’ll see him alter an Xbox 360 controller for a disabled gamer, making custom foot interfaces to take over the traditional role of your right hand. Also in the episode is part of a big build; making an Xbox 360 laptop out of the new slim model. We’re very interested in that overall build, but in this episode you only see him removing the components from the factory case. But we guess the promise of seeing the rest of the project is the hook to get you to watch the next episode.
Think that you haven’t heard of Ben Heck before? If you’ve been following Hackaday for a while you have. We’ve looked in on quite a few of his builds over the years, including his pinball machine, Xbox 360 portable, and his access controller.
[Mister Jalopy] is an outspoken recycler. He believes it is wrong that we live in a “throw away culture” and we here at Hackaday tend to agree. There is so much potential left in products, long after they may have given up their original purpose. He has been pushing to get companies to work with the public, to encourage re purposing and hacking. The belief is that it can only improve a company’s relationship with their customers.
[Mister Jalopy] appeared on National Public Radio today. They discussed the benefits of making your own stuff, as well as the legalities involved with modifying off the shelf products.
We covered his open house last October. Tons of fascinating stuff there.
[via Hoopty Rides]
We stumbled onto one of [Nik Melton]‘s projects, an Omni-car. It is omnidirectional, meaning it can go any direction at any time without having to turn. The body was designed by him, then printed with a 3D printer. The control scheme is what interests us though. He has found a simple way to wire it to get the job done. Sure you can see that it suffers from some pretty bad “drift” when trying to go in a straight line, but overall, we think he pulled it off well.
You might want to take a few moments to look around his project page. This guy has done a bunch of fun stuff like delta robots, strange hybrid wheel/leg robots, tesla coils, and arm mounted flamethrowers. Judging by the videos, he’s pretty young too. We think his guy has a bright future ahead of him.
[Ruyck] sent us this video of his mini Keepon robot. For those who haven’t been initiated, Keepon is a very emotive, and extremely expensive, dancing robot. He is deceptively simple looking, but as you can see in [Ruyck]‘s version, it is fairly complex. [Ruyck] has used a mini RC collective pitch helicopter assembly for the motion, which makes controlling it fairly intuitive. At first, we were not too impressed with [Ruyck]‘s final implementation, which you can see along with a comparison video of Keepon after the break. Then we realized, all he as to do is find a way to attach the bottom of the foam body to the base to achieve much more of the squash and stretch motion of keepon. A little creative programming and this little fellow could be made autonomous and synchronized to music.