Month: August 2013

Google Glass Controlled Quadcopter

August 9, 2013 by 9 Comments

google-glass-quadcopter-control

For some reason this project makes us think of the Dog Pog Grid from Neal Stephenson’s Diamond Age. It’s not that there’s a ton of drones floating around this guy, it’s that he’s got one which looks like it’s his bodyguard and is controlled by the Google Glass he wears on his head. The future is now!

We find the metamorphosis of this project interesting as well. It started as a Leap motion controlled rover project. We saw a similar hack just the other day that paired a Leap Motion with a Hexapod. But [Blaine] wasn’t satisfied with that. Having had a taste for alternate control inputs he dug in and got to work making Google Glass the control interface. But the problem with moving your head to control a rover is that you can’t actually see it because looking down would cause unwanted motion. His solution was to transition to a quadcopter, which will hover at eye level when he’s looking right at it. Glass is sending raw sensor data to a server, which does the translation to control commands for the quadcopter.

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What The Inside Of A Pneumatic Transport System Looks Like

August 9, 2013 by 52 Comments

While most of us are familiar with pneumatic transport systems by their use at drive-up bank windows, these systems are also commonly found in hospitals ferrying samples around. When [Aidan] was in the hospital, he asked how this series of tubes routed samples from many different floors to the lab and back again. Well, give him an old tube to play around with and he’ll eventually come up with a way to record the inside of one of these pneumatic tubes, giving some insight into how this system actually works.

When asked, a tech that uses this system on a daily basis described it as a very basic physical Ethernet that sucks and blows through rotary junctions and physical hubs to route packets to different areas of the building. [Aidan] wanted to record a tube’s travels, so he wired up a small HD camera, a bunch of LEDs, and a few batteries. Sending this recording sample container revealed some of how this pneumatic system works; the containers will travel forward and stop before reversing through one of the rotary switches. You can check out the flight of the container in the video below.

Of course there are other glimpses of how stuff travels through the unseen world of getting from point A to point B. Here’s a time lapse camera going on a trip via DHL just for kicks.

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Pill Dispenser Tattles To The Internet When You Don’t Take Your Pills

August 9, 2013 by 16 Comments

pill-taking-reminder-hardware

Here’s another entry in the Parallax microMedic 2013 contest. [Tim] calls it his Propeller-based Internet Logging Pill Dispenser (PDF file), or P.I.L. Box for short.

The hardware is a base unit into which a normal plastic pill organizer is placed. We like this design, as many pharmacies will fill pill boxes for you and this doesn’t complicate that process. You simply pull out the correct box at the beginning of the week and put it in the base unit. You can see one white LED is shining on the Monday slot in the box. This lights up starting an hour before the set pill taking time. This way if you walk by it reminds you. There is also a voice tailor made to scare the elderly that comes out of the speaker, and a simple messages spelled out on the set of seven segment displays. The base unit detects when you press the button to open the pill box and counts that as a properly administered dosage.

Now, if you forget to take the pill it’s not a good thing. The server, which is running on the laptop, will rat you out. It uses the Twitter API to alert whomever is following it — meant for a relative or caregiver — that a dosage was missed. Let’s hope they’re good at keeping up with their Twitter feed!

We remember seeing one other microMedic entry so far, this heart-shaped heart simulator. But we’re going to look around and see how many other good ones we’ve missed.

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Custom Made MIDI Recorder For An 8 Year Old Girl

August 9, 2013 by 6 Comments

recorder

[KDM] over at The Controller Project forums let us know about a cool project he’s been working on: a MIDI recorder for an 8-year-old girl born with two digits per hand.

The recorder – a simple woodwind instrument usually made of plastic – is a staple of grade school music classes the world over. It’s an excellent introduction to the performing arts, but for those with two fingers per hand, the fingering is a little difficult.

[KDM] contacted a manufacturer of these instruments and they were kind enough to send over a half-dozen for his experimentations. He drilled out these recorders on a lathe and started work on a simple circuit to turn this recorder into a MIDI instrument. A simple PIC micro and a few buttons were used, with a DIN 5 port on the horn of the instrument.

The build works, but we’re thinking with a small electronic wind sensor, this instrument could easily become a full-fledged MIDI wind controller that could be easily and cheaply reproduced for other budding musicians with special needs.

Oh, one more thing. We’d like to give a big shout out to the giant dork who started The Controller Project. A lot of Hackaday readers know how to work a microcontroller and a soldering iron, so how about heading over to their forums and doing some good with your skills?

Four-stroke Engine With Glass Cylinder Is A 2400 RPM Piece Of Art

August 8, 2013 by 46 Comments

We know a lot about toggling bits in a register, but only a bit about how engines work. This one inspires us to throw ourselves into the field with reckless abandon. [Huib Visser] built this glass cylinder four-stroke engine and he took great care to make it beautiful. We don’t need our projects to be polished and gleaming, but we have to admit that this the opposite of what we see when popping the hood on our 12-year-old rust bucket out front.

You can’t see it in this image, but just on the other side of the fly-wheel is a smaller wheel with a cord wrapped around it that acts as the pull start. This gets the toothed timing belt going along with the cylinder. As part of the demo video we get a good look at how the rotary intake and exhaust valves work. [Huib] also took the time to demonstrate how the rare earth magnets and hall effect sensor reed switch synchronize the ignition system.

You won’t want to miss the end of the video which show it in action as It burns Coleman fuel (white gas) and is lubricated with WD-40. This is jaw dropping and it works like a charm, but still not that far removed from the concepts seen in [Lou’s] hardware store engine project.

UPDATE: Here’s write up this engine (translated) [Thanks ChalkBored]

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Fail Of The Week: Inaugural Edition

August 8, 2013 by 115 Comments

We’re sure you’ve all been waiting on the edge of your seats to see whose project makes it as the first Hackaday Fail of the Week. Wait no longer, it’s [Mobile Will] with his woeful tale about monitoring AC current usage.

He had been working on a microcontroller actuated mains outlet project and wanted an accurate way to measure the AC current being used by the device connected to it. The ADE7753 energy metering IC was perfect for this so he designed the board above and ordered it up from OSH Park. After populating the components he hooked it up to his Arduino for a test run, and poof! Magic blue smoke arose from the board. As you’ve probably guessed — this also fried the Arduino, actually melting the plastic housing of the jumper wire that carried the rampant current. Thanks to the designers of the USB portion of his motherboard he didn’t lose the computer to as the current protection kicked in, requiring a reboot to reset it.

We can’t wait to hear the conversation in the comments. But as this is our first FotW post we’d like to remind you: [Mobile Will] already knows he screwed up, so no ripping on his skills or other non-productive dibble. Let’s keep this conversation productive, like what caused this? He still isn’t completely sure and that would be useful information for designing future iterations. Update: here’s the schematic and board artwork.

We’ve got a bit more to share in this post so keep reading after the break.

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Repairing A Mill That Cost As Much As A Car

August 8, 2013 by 45 Comments

miters

Years ago, someone at the bio-instrumentation lab at MIT needed to change a CMOS battery in the controller for a three axis mill. This reset the machine’s BIOS and was widely regarded as a bad move. The mill sat in the lab for a few years before  Prof. [Ian Hunter] donated it to MITERS – the student shop at MIT. And so the task of repairing a machine that cost as much as a car fell upon a plucky group of students.

The machine – a  Dyna-Myte 1007 has a 10″x7″x10″ work area, pneumatic tool changers and carousel, and the working for a fourth axis. It is. however, driven by an ancient Pentium computer running DOS with all the fun of ISA slots and IRQs that entails.

The MITERS began their repair by digging around in the software configuration, finding the axis drive is controlled via IRQ 3, which was currently occupied by COM 2. Changing that in the BIOS let the computer control the axes and, with a few solenoids and an air compressor, the tool carousel also worked.

With a bit of digging around, the MITERS also got the spindle working, giving them a very awesome and very expensive CNC milling machine for free. Even though the computer could be replaced with a $35 Raspberry Pi, we really have to admire the MITERS for fixing what they already had; it’s a cheaper and much, much faster way to get their new toy up and running.

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