737 Autopilot, Courtesy Of An Arduino

July 10, 2013 by Brian Benchoff 26 Comments

737

To start this off, no, we’re not looking at a piece of actual flight hardware. This is [Andrea Giudici]’s project to tie real-world hardware into Flight Simulator X. It’s an autopilot for simulated aircraft, so those of you looking at flying a 737 sometime in the near future need not worry about computers flying your plane. Airbus passengers, though…

[Andrea] didn’t want to dig around with the clunky point-and-click interface in FSX, so he created a virtual autopilot with a 2×16 LCD display and an Arduino to interact and set the most common autopilot settings such as altitude, speed, heading, and engagement. The physical interface is just three tact switches and a pot, while the interface to FSX is a custom driver that turns the USB out of the Arduino into actual flight commands.

It’s not a 737 cockpit in a garage, but it’s still a wonderful alternative to poking around in a completely computer-bound interface.

Video of the ‘duino in action after the break.

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Rocketduino, For High-G, High Altitude Logging

July 7, 2013 by Brian Benchoff 17 Comments

rocketduino

Although the thrill of launching rockets is usually found in their safe decent back to Earth, eventually you’re going to want some data from your flight. Everything from barometric pressure, GPS logging, and acceleration data is a useful thing to have, especially if you’re trying to perfect your craft. [zortness] over on reddit created a data logging board created especially for amateur rocketry, a fabulous piece of work that stands up to the rigors of going very fast and very high.

The design of the board is a shield for the Arduino Mega and Due, and comes with enough sensors for over-analyzing any rocket flight. The GPS logs location and altitude at 66Hz, two accelerometers measure up to 55 G. Barometric, temperature, and compass sensors tell the ground station all the data they would need to know over a ZigBee 900MHz radio link.

Because this is an Arduino, setting up flight events such as deploying the main and drogue chutes are as easy as uploading a bit of code. [zortness] built this for a 4″ diameter rocket, but he says it might fit in a 3″ rocket. We just can’t wait to see some videos of it in action.

Turning A Router Into An Arduino Shield

July 6, 2013 by Brian Benchoff 15 Comments

[Dirk] had a problem: while he already had an Arduino with an Ethernet shield, he needed WiFi for an upcoming project. Running a Cat5 cable was out of the question, and a true Arduino WiFi shield is outrageously expensive. He did, however, have a WiFi router lying around, and decided it would make a perfect WiFi shield with just a little bit of cutting.

The router [Dirk] used was a TL-WR702N, a common router found in the parts bins of makers the world over. Inspiringly, the size of the router’s PCB was just larger than the space between the Arduino’s pin headers. Turning the router into a shield is simply a matter of scoring the edge of the board and gluing on a few pins for mechanical strength.

Power and ground lines were soldered between the pin headers and the router, while data is passed to the Arduino and Ethernet shield through a short cable. It may not look pretty, but if it works in a pinch we can’t complain.

LegoDuino For Kid-friendly Microcontrollers

July 5, 2013 by Brian Benchoff 12 Comments

Lego

[J. Benschop] is teaching his nine-year-old son electronics by giving him a few wires, LEDs, and batteries. Eventually, the son looked over at his dad’s workbench and wondered what the little bug-shaped rectangles did. Microcontrollers and embedded programming are just a bit too advanced for someone who hasn’t hit a double-digit age, but [J] figured he could still have his son experience the awesomeness of programming electronics by building a custom electronic Lego microcontroller system.

This isn’t as complex as a Lego Mindstorms system. Really, it’s only an ATMega and a 2.4 GHz wireless transceiver. Still, that’s more than enough to add a few sensors and motor drivers, and an awesome introduction to electronics development. The enclosure for the LegoDuino is, of course, compatible with every Lego brick on the planet. It’s made from a 6×16 plate, three blocks high, with enough room for the electronics, three AA batteries, and the IO headers.

Programming an ATMega, even with the Arduino IDE, is a little beyond the capacity of [J. Benschop]’s nine-year-old son, so he made a few changes to the Minibloq programming environment to support the newly created LegoDuino. It’s a graphical programming language that kids of just about any age can pick up quickly, and with the included RF transceiver inside the ‘Duino, it can even be programmed wirelessly.

It’s an amazing piece of work, and much, much simpler than even the noob-friendly Lego Mindstorms. Not as powerful, though, but when you’re just teaching programming and electronics, you really don’t need much.

Astrosmash Style Video Game As Sony SmartWatch Firmware

June 27, 2013 by Mike Szczys 7 Comments

sony-smartwatch-native-video-game

Here’s a firmware hack that brings a video game to the Sony SmartWatch. It’s pretty impressive considering the limited screen real estate and the fact that it has to be shared with the touch input. But we find it equally impressive that a game of this quality followed so quickly on the heels of Sony announcing the ability to make your own firmware for the watch. The speedy development is thanks partly to the community driven effort to hack the Arduino IDE to load sketches on the watch.

The advent of this IDE hack means that taking your Arduino sketch writing abilities to this hardware now has a fairly low learning curve. And reading through [Asier Arranz’s] game code will make it even easier. He calls his game Star Wars but it reminds us more of Astrosmash. There’s a little green semicircle which is your ground-based defense vehicle. You need to fire the laser to shoot falling items out of the star-strewn night sky while also collecting power-ups that fall to the ground. Game play video is below.

Just remember, if you come up with a cool firmware app for the SmartWatch we want to hear about it.

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Transformer Built From MIT Admissions Mailing Tube

June 24, 2013 by Mike Szczys 21 Comments

mit-admissions-tube-robot It’s not quite on the scale of [Michael Bay], but that’s probably a good thing. We do think that this robot built from a mailing tube by [Will Jack] would be right at home in a Transformers movie.

The bot starts out looking like a normal cardboard mailing tube. But the seam at the middle splits to reveal the electronics inside. An Arduino Uno drives the device, monitoring that infrared rangefinder which is facing forward. Each half of the tube acts as a wheel, pushing against the at-rest mass of the internals to create motion. It can even pull off a tank-like pivot to turn in place by spinning he halves in opposite directions.

We were intrigued to hear that the admissions department at the Massachusetts Institute of Technology sent a single page acceptance letter in these silver tubes to those students accepted into the class of 2017. The letter invites the incoming class to hack the tube and send in their results. We’re going to have to dig through the submissions and see if there are any other noteworthy projects.

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Sony SmartWatch Running Arduino Sketches

June 22, 2013 by Mike Szczys 9 Comments

sony-smartwatch-arduino-sketches

Well that didn’t take long. We just heard last week about the Sony inviting firmware hacks for their SmartWatch and here’s an early example. This image above is an animation running on the watch. It was written as an Arduino sketch which runs on a custom firmware image. [Veqtor] wrote the sketch, which is just a couple of nested loops drawing lines and circles. The real hack is in the firmware itself.

[Veqtor] took part in a workshop (translated) put on by [David Cuartielles] which invited attendees to try their Arduino coding skills on his firmware hack for the watch. It implements an Android parser, but the development is in very early stages. Right now there’s zero information in his readme file. But the root directory of the repo has a huge todo list. Dig through it and see if you can fork his code to help lend a hand.

Learn more about the SmartWatch firmware from the original announcement.

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