This unit is a good device to start with because it consists of 2 devices: We'll use parameters of this device in our examples below. I'll use as an example a new IMU unit, the Acc_Gyro Accelerometer + Gyro IMU. I think a system that is simple is easier to control and monitor, besides many embedded devices do not have the power and resources to implement complex algorithms requiring matrix calculations. My way of explaining things require just basic math. You can research all those and achieve wonderful but complex results. There are people out there who believe that you need complex math in order to make use of an IMU unit (complex FIR or IIR filters such as Kalman filters, Parks-McClellan filters, etc). If you know what Sine/Cosine/Tangent are then you should be able to understand and use these ideas in your project no matter what platform you're using: Arduino, Propeller, Basic Stamp, Atmel chips, Microchip PIC, etc. Throughout the article I will try to keep the math to the minimum.
#Accelerometer vs gyroscope how to
How to combine accelerometer and gyroscope readings in order to obtain accurate information about the inclination of your device relative to the ground plane.How to convert analog-to-digital (ADC) readings that you get from these sensor to physical units (those would be g for accelerometer, deg/s for gyroscope).What does a gyroscope (aka gyro) measure?.This guide is intended to everyone interested in in using Accelerometers and Gyroscopes as well as combination IMU devices ( Inertial Measurement Unit) in their electronics projects