[William] sent in this project where he’s using his iPhone to control his TV lift. He’s made a custom PCB with a pic18f122 microprocessor to communicate with the lift. He says it connects to the lift controls via a serial port. You can see a video of it in action after the break. We really think the shadow turning into an arrow is cool. That was a lucky accident.
Sometimes you find yourself thinking “this cell phone is far to compact and unobtrusive.” [Trotmaster] had this thought and did something about it. Ok, well actually he’s trying to have some fun and build a glove phone, inspector gadget style. There really doesn’t seem to be a good reason to do this other than it would be cool, so we’ll proceed on those grounds. He has disassembled the phone and extended all the buttons. When wearing the glove, you can dial by pressing the finger tip buttons with your thumb. The screen is located on the back of the hand and can be lifted and rotated for easy viewing. Can anyone think of an application where this would be a beneficial layout, assuming you refined it a bit?
[via instructables]
[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.
[Benjamin] was working for a GPS company called Nemerix about two years ago and decided to hack together this iPod accessory GPS unit. He is using an Atmel ATmega324 and a Nemerix GPS unit, though he says the GPS unit shouldn’t matter. He is taking advantage of the AiR mode on the iPod which allows a 4 color image to be sent to the screen. There was little information on how to utilize this, but BMW and Alpine had made some car audio that featured this. [Benjamin] picked up an Alpine with this function and sniffed the data stream to get what he needed. He says there is good documentation out there now though.
He says that the source code is available if you ask.
[Matt] sent in this cool final project he did for his Computer Engineering course. They built a space invaders clone, where the player has to physically move back and forth to move the ship, and jump to fire. The game is projected on the wall, with a camera mounted below it, facing the player. The player, wearing an orange vest, is tracked for the movement and the firing. They also included a blue tooth heart rate sensor with the ultimate goal of using this data to vary the game difficult, but didn’t end up getting the code in. You can see a video of them testing it out at the end of his post.
[Jeri ellsworth] of fatmanandcircuitgirl.com has made an audio recorder out of a floppy disk and an old tape recorder. She’s able to record 15 seconds of audio directly to floppy disk. In the video after the break, she explains how it works, and why you hear the creepy reverb effect. The next step is to run this as a pedal effect for stage music, and she even mentions doing a larger hard drive version with the ability to seek tracks.
As a senior design project for ECE4007, [Nate], [An], [Chris], and [Wink] built an autonomous toy tank. It is using a Panasonic IR motion sensor to find targets, then once it’s facing the target it switches to visual motion tracking through it’s web cam. If it can get close enough, it will stop and begin rotating the turret for more accuracy. Finally it fires a pellet. It’s brains are an ICOP technology eBox-2300 running windows CE. All of the programming is available on the site, as well as a breakdown of the various sensors and hardware. As you can see in the video after the break, it does a decent job. Given some more time, we’re sure they could speed up the target acquisition process. Maybe we should add a category for Georgia Tech final projects.
