Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Can anyone help on removing the g factor from accelerometer readings. I am using SensorEventListener with onSensorChanged() method for getting Sensor.TYPE_ACCELEROMETER data. I need only pure acceleration values in all directions. So at any state if the device is stable (or in constant speed), it should give (0.0,0.0,0.0) roughly. Currently, depending on its pitch and roll, it gives me variable output depending on the g forces acting on each axis.

I hope there is some formula to remove this, as I also get orientation values (pitch and roll) from Sensor.TYPE_ORIENTATION listener. I had used some but didn't work.

Any help please ?

share|improve this question

5 Answers 5

You can use a low-pass filter.

Do this for each of your sensor values:

g = 0.9 * g + 0.1 * v

Where v is your current sensor value and g is a global variable initially set to zero. Mind that you'll need as many g variables as you have axes.

With v = v - g you can eliminate the gravity factor from your sensor value.

share|improve this answer
Note that this can be rewritten as g = (1-a)*g + a*v, where a is a variable between 0 and 1 that controls the cutoff of the filter. –  Drew Noakes Jun 17 '14 at 20:56

Differentiating with respect to time a function of time rids you of the constants.

So by taking the derivative of the accelerometer's signal you'll get the "Jerk", which you can then re-integrate in order to get the non-constant part of the acceleration you're looking for.

In Layman's terms, take a sample from the accelerometer every 1 second, and subtract it from the previous sample. If the answer is (very close to) zero, you're not accelerating relatively to earth. If the result is non-zero, integrate it (in this case, multiply by one second), you have your acceleration.

Two things, though : -Look out for noise in the signal, round off your input. -Don't expect hyper-accurate results from on-chip accelerometers. You can use them to detect shaking, changes in orientation, but not really for knowing how many G's you're experiencing while making sharp turns in your car.

share|improve this answer

One way (for devices only with accelerometer) is to remove gravity vector from accelerometer data by subtracting the values that would come in static case for same orientation. But as orientation is again calculated by taking acceleration readings and not independently, its not very accurate.

Gyroscope may help in this case. But few androids still have a true gyroscope. And using its raw readings is not so simple.

share|improve this answer

Just subtract out g (~9.8m/s^2) times the z direction of the rotation matrix. Or to be more explicit about it, let

a = your accelerometer reading,
R = your rotation matrix (as a 9-long vector).

Then what you want is

(a[0]-g*R[6], a[1]-g*R[7], a[2]-g*R[8]).
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.