# Smoothing Accelerometer Values

I am creating an android phonegap application that uses the accelerometer to detect imperfections on the road. However, when I am using the raw accelerometer values (x, y, and z) they vary too much from one try to another. I tried taking the same imperfection using the same device, same vehicle and position, however the values given by the accelerometer are completely different. I am getting the accelerometer value every .25 of a second so every second I would get 4 values of x, y and z.

Can anyone tell me how I would be able to smooth the values in order to get a smoother and more reliable value? I will need to use these values to do further processing on them, so the accuracy of the x, y and z values is vital. Is there any formula that can be applied to the values to get a smoother output?

UPDATED: Adding a snippet of my code:

``````function acc() {
var accOpt = { frequency: 1000 };
x   :   null,
y   :   null,
z   :   null,
lr  :   null,
fb  :   null
};
watchID = navigator.accelerometer.watchAcceleration(win, fail, accOpt);
}

function win (acceleration) {

var tiltLR = 0;
var tiltFB = 0;

var facingUp = -1;
if (acceleration.z > 0) {
facingUp = +1;
}

tiltLR = Math.round(((acceleration.x) / 9.81) * -90);
tiltFB = Math.round(((acceleration.y + 9.81) / 9.81) * 90 * facingUp);

var changes = {};

}

x: acceleration.x,
y: acceleration.y,
z: acceleration.z,
lr: tiltLR,
fb: tiltFB
};

console.log('changes x: ' + changes.x  + ' changes y: ' + changes.y + ' changes z: ' + changes.z + ' changes lr: ' + changes.lr + ' changes fb: ' + changes.fb);

console.log(acceleration.x + ' ' + acceleration.y + ' ' + acceleration.z);

}
``````

Filters: I have come across this code to smooth a bit the x, y and z values. If I apply this to the current x,y,z value and then compare them with the previous ones (which are also filtered out), would this work in my case?

`````` #define kFilteringFactor 0.1

// Use a basic low-pass filter to keep only the gravity component of each axis.
grav_accelX = (acceleration.x * kFilteringFactor) + ( grav_accelX * (1.0 - kFilteringFactor));
grav_accelY = (acceleration.y * kFilteringFactor) + ( grav_accelY * (1.0 - kFilteringFactor));
grav_accelZ = (acceleration.z * kFilteringFactor) + ( grav_accelZ * (1.0 - kFilteringFactor));

// Subtract the low-pass value from the current value to get a simplified high-pass filter
instant_accelX = acceleration.x - ( (acceleration.x * kFilteringFactor) + (instant_accelX * (1.0 - kFilteringFactor)) );
instant_accelY = acceleration.y - ( (acceleration.y * kFilteringFactor) + (instant_accelY * (1.0 - kFilteringFactor)) );
instant_accelZ = acceleration.z - ( (acceleration.z * kFilteringFactor) + (instant_accelZ * (1.0 - kFilteringFactor)) );
``````
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What kind of imperfections are we talking about here? –  Matti Virkkunen Dec 31 '12 at 13:39
@MattiVirkkunen potholes, speedbumps etc –  user1809790 Dec 31 '12 at 13:40