I recently bought an e-paper display with a 2.7" screen size distributed by Embedded Artists. Since it does not consume any power between updates it is perfect to display status information for any kind of embedded technology. Since I am quite the Arduino fan my plan was to hook it up to one of them and simply use an existing software library to interface it. (Update available)(second Update)
Using a RC transmitter to be able to control aspects of a circuit controlled by an Arduino is a very nice feature. The first thing that comes to my mind is controlling stepper motors instead of servos, as they are way more precise. An easier example, but cool nonetheless, is mapping the input to a PWM signal for diming LEDs.
Reading the values of the channels of your RC receiver is not as complicated as I first thought.
That is, if you have a receiver that is able to output a PPM sumsignal.
I recently bought a RC set, the mx-10 of the HoTT series from Graupner.
The receiver GR-12 coming along with it is able to provide you with up to 16 channels! However, the mx-10 has 5 channels, so setting it to a higher value makes no sense in this case.
some time ago I bought an Inertial Measurement Unit (IMU), to be precise I bought the MinIMU-9 developed by Pololu. (The link in case you need it) It's small, cheap and provides gyro, accelerometer and compass readings, each in 3D. It is perfect for implementing an Attitude and Heading Reference System (AHRS), very important if you want to control a RC plane, drone or other robots.
Luckyly, Pololu provides a complete software suite for the arduino, including the libraries for each sensor as well as a sample implementation for a AHRS, based on a Direction Cosine Matrix (DCM) approach. As I have close to no understanding of the theory behind this, I am very happy that the algorithm prints the roll, pitch, yaw angles to the serial interface ready for me to use!
No drifts, little noise (I need to take a close look there), simple as that!
this morning I read about something really crazy you can do in C++ which involves bitshifting a float number and subtracting it from a magic number to get . You can find the explanation here, very cool: link
for my first post that actually contains content, I would like to show you what I use as a cheap and small GPS device.
GPS devices can be found in a lot of different devices, like mobile phones, cars and security devices. One class of such security devices are GPS -Tracker. GPS-Tracker constantly register their position and send the information to a previously specified user via eMail or SMS. I bought this tracker (for ~60€) that sends a SMS with the current position as a reply to a request SMS coming from me. The initial idea was to get the position of a RC plane in case its lost or to track the position of my cat 🙂