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I'd like to get accelerometers on Android and have them on the earth coordinate system, just like on this topic Acceleration from device's coordinate system into absolute coordinate system or here Transforming accelerometer's data from device's coordinates to real world coordinates but these solutions don't work for me. I'm working on Processing. The project is simply to track the phones accelerations in space, no matter how it is (standing, on the side...). I'm new to Android too. I'd appreciate your help! Thank you.

Edit : I don't need the phones exact position, only accelerations.

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"these solutions don't work for me." Please explain: Why? Do you get wrong results? "The project is simply to track the phones position in space" This has come up a zillion times. You cannot do it with double-integrating the acceleration. You either need an external source of reference (for example GPS) or some domain specific assumption (for example the foot doesn't move when it is on the ground). – Ali May 16 '14 at 20:05
    
Hi, well it simply does not work (results can be completely random), comments say the same : "I've tested your snippet and all I get is a quite noisy random signal in return." The project is not really to be able to track the position in space but at least get acceleration values in earth referential. I'm well aware that I cannot get position by double-integrating values. I'd like to get acceleration values no matter the position of the phone. – user3645663 May 17 '14 at 11:57
    
I am afraid I don't follow. I didn't post any snippet nor does any comment say "I've tested your snippet and all I get is a quite noisy random signal in return." under my answer. What's wrong with Sensor.TYPE_LINEAR_ACCELERATION? As I understand your question that is exactly what you are looking for. – Ali May 17 '14 at 12:24
    
@Ali Sensor.TYPE_LINEAR_ACCELERATION gives me acceleration without gravity, but still in the phones coordinates. I need to have the accelerations values in the earth coordinates. link these drawings explain it perfectly : if the phone is standing and moving toward North, it's not giving the same values as when it's on the side, still moving towards North. – user3645663 May 17 '14 at 13:01
    
OK, I see. What's wrong with the accepted answer to Acceleration from device's coordinate system into absolute coordinate system? Please don't say "it does not work" but explain what you have tried (with code) and what the outcome was. – Ali May 17 '14 at 14:12
up vote 2 down vote accepted

I finally worked it out! I combined 2 previous answers, here is the code :

  monSensorManager.getRotationMatrix(Rotate, I, gravity_values, mag_values); 
  float[] relativacc = new float[4];
  float[] inv = new float[16];
  relativacc[0]=lin_values[0];
  relativacc[1]=lin_values[1];
  relativacc[2]=lin_values[2];
  relativacc[3]=0;
  android.opengl.Matrix.invertM(inv, 0, Rotate, 0);
  android.opengl.Matrix.multiplyMV(earthAcc, 0, inv, 0, relativacc, 0);

1) Get phone unit vector in earth coordinates 2) Invert matrix to get earth unit vector in phone coordinates 3) Multiply phone acceleration by unit vector to transform phone coordinates to earth coordinates. Thank you all for your help!

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The accelerometers are given in term of the device coordinate system. To express the accelerometers in term of the earth coordinate system you need to find the change of basis matrix from the device coordinate system to the earth coordinate system. This is what the rotation matrix is in getRotationMatrix method.
Thus you have to register for TYPE_MAGNETIC_FIELD and filter TYPE_ACCELEROMETER values or using TYPE_GRAVITY in order to get the rotation matrix. Once you get the rotation matrix M it is simple to convert the accelerometer vector in the device coordinate system to the earth coodinate system.

A_E = M * A_D

That is

A_E[0] = M[0] * A_D[0] + M[1] * A_D[1] + M[2] * A_D[2];
A_E[1] = M[3] * A_D[0] + M[4] * A_D[1] + M[5] * A_D[2];
A_E[0] = M[6] * A_D[0] + M[7] * A_D[1] + M[8] * A_D[2];

Where A_D is the accelerometers returned in onSensorChanged

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First, thanks for helping. I don't know how to multiply these matrices as I can only multiply 4*4 matrices with multiplyMM (I tried to make a 3*3 matrix for accelerometer values) so I had : android.opengl.Matrix.multiplyMM(earthAcc, 0, accMatrix, 0, Rotate, 0); I tried also multiplyMV(earthAcc, 0, Rotate, 0, acc_values, 0); and I get FATAL EXCEPTION: Animation Thread java.lang.IllegalArgumentException: length - offset < n. Matrices are all 3*3 (accMatrix is simply x, 0, 0, 0, y, 0, 0, 0, z. – user3645663 May 18 '14 at 8:53
    
The rotation matrix is define as an array so you just have to use regular multiplication. – Hoan Nguyen May 18 '14 at 9:08
    
Then I get operator * cannot be applied to float[],float[] if I write earthAcc = acc_values*Rotate; – user3645663 May 18 '14 at 9:13
    
Look at my edited answer. – Hoan Nguyen May 18 '14 at 9:15
    
Well I still get quite random values. Here is my what I wrote : monSensorManager.getRotationMatrix(Rotate, I, gravity_values, mag_values); earthAcc[0] = Rotate[0] * acc_values[0] + Rotate[1] * acc_values[1] + Rotate[2] * acc_values[2]; earthAcc[1] = Rotate[3] * acc_values[0] + Rotate[4] * acc_values[1] + Rotate[5] * acc_values[2]; earthAcc[2] = Rotate[6] * acc_values[0] + Rotate[7] * acc_values[1] + Rotate[8] * acc_values[2]; I tried without updating getRotationMatrix every time, still quite random. Thanks for helping tho, I really need it ! – user3645663 May 18 '14 at 9:54

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