It's past several days since I started using this function and have not yet succeeded in obtaining valid results.

What i want is **basically convert acceleration vector from device's coordinates system, to real world coordinates**. I' know that is possible because i have acceleration in relative coordinates and i know the orientation of the device in real world system.

Reading Android developers seems that using getRotationMatrix() i get R = rotation matrix.

So if i want A (acceleration vector in world system) from A' (acceleration vector in phone system) i must do simply:

```
A=R*A'
```

But i cant'n understand why the **vector A has ALWAYS the first and the second component zero** (example: +0,00;-0,00;+6,43)

My current code is similar to this:

```
public void onSensorChanged(SensorEvent event) {
synchronized (this) {
switch(event.sensor.getType()){
case Sensor.TYPE_ACCELEROMETER:
accelerometervalues = event.values.clone();
break;
case Sensor.TYPE_MAGNETIC_FIELD:
geomagneticmatrix =event.values.clone();
break;
}
if (geomagneticmatrix != null && accelerometervalues != null) {
float[] Rs = new float[16];
float[] I = new float[16];
SensorManager.getRotationMatrix(Rs, I, accelerometervalues, geomagneticmatrix);
float resultVec[] = new float[4];
float relativacc[]=new float [4];
relativacc[0]=accelerationvalues[0];
relativacc[1]=accelerationvalues[1];
relativacc[2]=accelerationvalues[2];
relativacc[3]=0;
Matrix.multiplyMV(resultVec, 0, Rs, 0, relativacc, 0);
//resultVec[] is the vector acceleration relative to world coordinates system..but doesn't WORK!!!!!
}
}
}
```

This question is very similar to this one Transforming accelerometer's data from device's coordinates to real world coordinates but there i can't find the solution...i had tried all the ways..

Please help me, i need help!!!

UPDATE:

Now my code is below, i had tried to explain matrix product, but nothing change:

```
float[] Rs = new float[9];
float[] I = new float[9];
SensorManager.getRotationMatrix(Rs, I, accelerationvalues, geomagneticmatrix);
float resultVec[] = new float[4];
resultVec[0]=Rs[0]*accelerationvalues[0]+Rs[1]*accelerationvalues[1]+Rs[2]*accelerationvalues[2];
resultVec[1]=Rs[3]*accelerationvalues[0]+Rs[4]*accelerationvalues[1]+Rs[5]*accelerationvalues[2];
resultVec[2]=Rs[6]*accelerationvalues[0]+Rs[7]*accelerationvalues[1]+Rs[8]*accelerationvalues[2];
```

Here some example of data read and result:

```
Rs separated by " " Rs[0] Rs[1]....Rs[8]
Av separated by " " accelerationvalues[0] ...accelerationvalues[2]
rV separated by " " resultVec[0] ...resultVec[2]
```

As you can notice the component on x and y axes in real world are zero (around) even if you move speddy the phone. Instead the relative acceleration vector detect correctly each movement!!!

**SOLUTION**
The errors in the numberrs are relative to float vars multiplication that is not the same as a double multyplication.
This sums to the fact that **rotation matrix isn't costant if the phone**, even if with the same orientation, **is accelerating.**
So is impossible translate acceleration vector to absolute coordinates during motion...
It's hard but it's the reality.

`Rs`

and`accelerometervalues`

. If the problem does not become clear, post the results. – Beta Nov 6 '11 at 14:11`resultVec[0]=Rs[0]*accelerationvalues[0];`

and show us the result (in a comment). – Beta Nov 6 '11 at 15:24