[blip.tv ?posts_id=2164793&dest=-1]
Remember those days, back in the arcade, where games with a unique control scheme also had a controller best suited for them? There were rolling balls, joysticks, dials, all sorts of inputs. Consoles have maily relied on their standard controllers, relegating alternative inputs to be strange collectors items. Some games just need a specialized controller though. For example, Katamari Damacy. [Kellbot] has made one that we think suits the game very well.
Many people find themselves frustrated when working with headphones. The tiny coated wire can be a real pain to work with. They are so very very small, and usually coated. We generally just end up doing a quick “sand and tape” which just isn’t very high quality. [Alex] sent in some tips that can really help you get those repairs or modifications going.
[fibra] has been slowly building a custom controller for his motorcycle. It’s an automated chain oiling system that varies application based on RPM. The LCD can show wheel RPM, voltage, time, date, air, and engine temperature. A separate driver board has a MOSFET for controlling the oiling valve. The real gold here is the attention to detail. He built a one off circuit board. The case is laser cut acrylic that he then shaped. The box is molded smoothly into the original instrument cluster using epoxy. It’s excellent work that could be mistaken for a commercial product.
[Zach] sent us a link to his keyboard pants. Frankly, we were astonished, not only by his craftsmanship, but by the fact that we were working on a pair ourselves. Admittedly his are much better looking and ours will probably never be finished. The inspiration for both his and ours, was this sloppy version. [Zach’s] pair have been cut in half, and he never really found a convenient way to reconnect the two halves, so only the left works. Watch this video to see him playing some Tetris in his awesome shorts.
[Tom Gerhardt] has made this very interesting mud interface for a computer. Follow the link to see a video of it in action. It appears as though he’s using a laser grid of some kind to establish elevation. We might be way off on that though, there aren’t any details on the construction. He does mention that it is an open source hardware and software project, so maybe the details are available on request. In the video you can see it running as a projection surface where people are interacting with items directly on the mud. You can also see it being used as an external input device. People play Tetris using it in that example.
UPDATE: [Moon] reports from the ITP show that the tub has a 16×12 grid of generic pressurs sensors on the bottom. These feed into a MacBook Pro which is projecting on the surface. Despite the sparse grid, [Tom] says he gets good resolution by interpolating between sensors; it can detect a resting hand pivoting on the surface.
[youtube=http://www.youtube.com/watch?v=Smai_Z_galE]
iPhones and iPod touches have many advantages over the plain iPod. Have you ever wished you could advance tracks without looking though? That is a perfect example of where the current display/ input trends are lacking. There is no tactile feedback. [Chris Harrison], a Ph.D student at Carnegie Mellon has been working on an alternative.
His displays are rear projected and multitouch like many of the other multitouch systems we’ve seen. However, his also offer tactile feedback by changing their physical shape. Much like a vac-u-form, he is using vacuum to deform a flexible surface over different shapes. Not only are they able to do simple 2 state systems where you have smooth, then vacuumed, they can also do a third state by pressurizing the inside of the display. You can see several variations in the video.
[Noah] tipped us off to his work with Physically Engaged Electronic Instruments. He is building instruments, that while being electronic, require physical action to drive them. In the video after the break, you can see an example, in the form of a polka. The part that they’re holding (print head?) is attached to a generator which powers the instrument. The effect makes the instrument much more like a traditional stringed instrument that must be strummed. We can easily also imagine an interface similar to a concertina or accordion being functional. There are schematics available on his site in the research reports section, but you’ll have to dig through a pdf or two to find them. We would love to see a breakdown of the instruments and their components in a more accessible form.
