Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them, it only takes a minute:
  • I want to monitor the orientation of a device on 2 axis: very simply: which way is down.
  • It must maintain accuracy over extended time period (12 hours)
  • It will be subject to rotations and accelerations about all axes

The device will be an Android phone with standard gyroscope / accelerometer. With those two sensor types, is it possible to satisfy the above requirements?

My thoughts so far: An accelerometer alone cannot achieve this, since given any set of values for an instant in time, it is not possible to separate the gravitational and spacial acceleration components. And my brain wants to explode when I try to imagine how a gyroscope could help resolve that. Are there any clever formulas / algorithms which would manage this?


share|improve this question
Try having a google for 'accelerometer gyroscope data fusion'. It's a pretty common task in IMUs, and is definitely doable. (Off the top of my head, you could set up an Kalman Filter / just do a HPF on the accelerometer and a LPF on the gyroscope, but I don't have any implementation details handy). –  sapi Mar 19 '13 at 3:39

1 Answer 1

up vote 10 down vote accepted

An easy way to combine accelerometer and gyroscope data is by the use of a complementary filter. This way, you don't have problems with drift from the gyroscope and noise from the accelerometer. It is also much easier to understand and use than a Kalman filter.

You will calculate the angle from the gyroscope using an integral. And for the accelerometer you will use a tan2 function to determine the position of the gravity vector. The complementary filter would then combine these two angles as follows:

angle = 0.98*(angle + gyroData*dt) + 0.02*accAngle

Notice how you only take a fraction of the accelerometer data (just enough to compensate for the drift). You will thus use the gyroscope data for fast changes, but on the long run, you will keep following the mean value of the accelerometer angle calculation so that you don't drift.

I hope this helps. If you need more info and a C code example, I wrote an article about it here

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.