HackPhx Winter 2014 Hackathon Winners

January 24, 2014 by 9 Comments

HackPhx 2014

The HackPhx Winter 2014 hackathon was held at Heatsync Labs hackerspace in Mesa, Arizona, USA. The advertised theme was “Arduino Wearables”. Participating attendees were randomly placed on teams evenly distributed by their disclosed skills across all teams. There were 10 teams with 4 to 5 members per team competing for two winning spots.

Each team had to build an amazing wearable project utilizing the secret ingredient which was Seedstudio’s Arduino-compatible Xadow wearable platform and add-ons. The Xadow is similar to the Arduino Leonardo and participants used an Arduino cross compatibility and pin mapping chart to assist in development.

Top prize was the Judges’ prizes for the best completed and documented Xadow wearable team project. The second prize was the Jury’s prize given to the team project that the other teams liked the most regardless of event criteria.

Read more about the winning teams and watch their presentations after the break.

Continue reading “HackPhx Winter 2014 Hackathon Winners”

Here’s Pi In Your Eye – HUD Goggles

January 17, 2014 by 7 Comments

[John Ohno] has found what is perhaps the best possible use for steampunk goggles: framing a monocular display for a Raspberry Pi-based wearable computer. [John]’s eventual goal for the computer is a zzstructure-based personal organizer and general notifier. We covered [John]’s zzstructure emulator to our great delight in July 2011. Go ahead and check that out, because it’s awesome. We’ll wait here.

[John] has been interested in wearable computing for some time, but is unimpressed with Google Glass. He had read up on turning head-mounted displays into monocular devices and recognized a great opportunity when his friend gave him most of an Adafruit display. With some steampunk goggles he’d bought at an anime convention, he started on the path to becoming a Gargoyle. He encountered a few problems along the way, namely SD card fail, display output issues, and general keep-the-parts-together stuff, but came out smelling like a rose. [John] has ideas for future input additions such as simple infrared eye tracking, the addition of a chording keyboard, and implementing a motorized glove for haptic learning. 

Want to make your own wearable display but have an aversion to steampunk? Check out this homebrew solution with (mostly) 3-D printed frames. And it has servos!

[Thanks John]

A Kinect Controlled Robotic Hand

December 10, 2013 by 5 Comments

hand

It’s that time of year again when the senior design projects come rolling in. [Ben], along with his partners [Cameron], [Carlton] and [Chris] have been working on something very ambitious since September: a robotic arm and hand controlled by a Kinect that copies the user’s movements.

The arm is a Lynxmotion AL5D, but instead of the included software suite the guys rolled their own means of controlling this arm with the help of an Arduino. The Kinect captures the user’s arm position and turns that into data for the arm’s servos.

A Kinect’s resolution is limited, of course, so for everything beyond the wrist, the team turned to another technology – flex resistors. A glove combined with these flex resistors and an accelerometer provides all the data of the position of the hand and fingers in space.

This data is sent over to another Arduino on the build for orienting the wrist and fingers of the robotic arm. As shown in the videos below, the arm performs remarkably well, just like the best Waldos you’ve ever seen.

Continue reading “A Kinect Controlled Robotic Hand”

HackPrinceton: Piano Stairs!

November 11, 2013 by 13 Comments

princeton piano

It was Hack.Princeton this weekend and [Bonnie] and [Erica] threw together this great interactive portable piano!

The setup is very simple using six LED flashlights, and six photoresistors. An Arduino Uno reads in the values from the photoresistors and parses them to a nearby Raspberry Pi which then creates the sounds. The system even automatically calibrates itself when turned on, adjusting to the ambient light conditions. They made the project for the Hackathon and after a short scare of having to move it to another staircase for the demo, they took home 2nd place in the hardware category!

Stick around after the break to see it in action — this would make a great school project to get kids interested in hacking!

Continue reading “HackPrinceton: Piano Stairs!”

A New Old Lathe For Your Hackerspace Or Garage

November 8, 2013 by 51 Comments

3D printers, or even small CNC routers may seem like relatively easy machine tools to obtain for your hackerspace or garage. They are both very useful, but at some point you may want to start working with round parts (or convert square-ish items into round parts). For this, there is no better tool than a lathe. You can buy a small and relatively cheap lathe off of any number of distributors, but what if you were to get a good deal on a larger lathe? Where would you even start?

In my case, I was offered a lathe by a shop that no longer had a use for it. Weighing in at 800 pounds and using 3 phase power, this South Bend Lathe might have been obtained economically, but getting it running in my garage seemed like it would be a real challenge. It definitely was, but there are a few mistakes that I’ve made that hopefully you can avoid.

Continue reading “A New Old Lathe For Your Hackerspace Or Garage”

GameBoy Color Costume

November 7, 2013 by 7 Comments

game boy costume

Okay, okay. We know it’s November now, but when [John] sent this project in, we just had to share it. He made a fully functional Gameboy Color costume!

The costume makes use of a Raspberry Pi (located on his back), running RetroPie, which is an open source project dedicated to creating a universal console emulator.  To create the controllers he used two Teensy microcontrollers in his gloves, setup to emulate two USB keyboards on the Pi. Since he’s using Teensy 3.0, it supports capacitive touch sensing, so all he had to do was wire pieces of aluminum to the input pins to create touch-sensitive metal buttons on the gloves. He then slapped a cheap 10″ LCD from Adafruit onto his chest, stuffed a few 12V LiPo batteries in his pockets, and was ready to be the hit of any party he went to.

The costume was a great success, although a pesky pair of Mario and Luigi kept holding his hands all night… Stick around after the break to see a demonstration video!

Continue reading “GameBoy Color Costume”

“Professor Kill A. Volt” Shocks Pumpkins With His Tesla Coil

November 3, 2013 by 23 Comments

jj

[JJ Dasher] is back again this year, shocking some pumpkins! (Volume warning). We featured [JJ] two years ago for his Halloween candy shocking Tesla coil. He apparently has been busy in his mad scientist laboratory doing some upgrades. This year his coil is producing 5 foot long streaming arcs!

[JJ’s] Tesla coil is a uses two microwave oven transformers as a power supply. He also uses an Asynchronous Rotary Spark Gap (ASRG). As the name implies, a rotary spark gap uses a motor to turn a rotor. At certain points in the rotation, the rotor creates a small enough gap that a high voltage spark can jump across, energizing the primary coil. This idea is similar to an automotive ignition system distributor. [Pete] gives a great example of an ASRG in this video. Most ASRG based Tesla coils use the small motor to spin up the spark gap. Varying the speed of the motor creates the characteristic “motor revving” noise heard in the final arcs of the Tesla Coil.

[JJ] made things a bit more interesting by installing a couple of fluorescent bulbs inside a pumpkin near the coil. The coil lights them easily, and they glow even brighter when the pumpkin is struck. Still not satisfied, he also donned his grounded chainmail gloves and drew the arc to himself. We always love seeing people safely taking hits from massive Tesla coils, but this definitely falls under the “don’t try this at home” banner.

Continue reading ““Professor Kill A. Volt” Shocks Pumpkins With His Tesla Coil”