# How to compute yaw, pitch roll from a rotation matrix?

I have to compute in Android yaw, roll, pitch from gyroscope´s smartphones output and I wrote this code:

if(event.sensor.getType()==Sensor.TYPE_GYROSCOPE){

``````        float xgyr=event.values[0];                //rotation around x-axis  [rad/sec]
float ygyr=event.values[1];                // rotation around y-axis
float zgyr=event.values[2];               // rotation around z-axis

// This timestep's delta rotation to be multiplied by the current rotation
// after computing it from the gyro sample data.

double EPSILON = 0.0;           //EPSILON value to be defined
if (timestamp != 0) {
final float dT = (event.timestamp - timestamp) * NS2S;
// Axis of the rotation sample, not normalized yet.
float axisX = event.values[0];
float axisY = event.values[1];
float axisZ = event.values[2];

// Calculate the angular speed of the sample, teta is the vector length
float omegaMagnitude = (float) Math.sqrt(axisX*axisX + axisY*axisY + axisZ*axisZ);

// Normalize the rotation vector if it's big enough to get the axis
if (omegaMagnitude > EPSILON) {                  //EPSILON TO BE DEFINED
axisX /= omegaMagnitude;
axisY /= omegaMagnitude;
axisZ /= omegaMagnitude;
}
``````

Hello, I have to compute yaw roll, pitch using output from a gyroscope and I wrote this code:

``````             float thetaOverTwo = omegaMagnitude * dT / 2.0f;      //Insert initial value for orientation omegaMagnitude
float sinThetaOverTwo = (float) Math.sin(thetaOverTwo);
float cosThetaOverTwo = (float) Math.cos(thetaOverTwo);

/*rotation vector, a non-normalized three-dimensional vector the direction of which specifies the rotation axis,
and the length of which is teta,    Combining two consecutive quaternion rotations is therefore just as simple as using the rotation matrix.
Remember that two successive rotation matrices, A1 , A2 are combined A3 = A2*A1*/

//Quaternions
deltaRotationVector[0] = sinThetaOverTwo * axisX;
deltaRotationVector[1] = sinThetaOverTwo * axisY;
deltaRotationVector[2] = sinThetaOverTwo * axisZ;
deltaRotationVector[3] = cosThetaOverTwo;
}
timestamp = event.timestamp;
float[] deltaRotationMatrix = new float[9];
SensorManager.getRotationMatrixFromVector(deltaRotationMatrix, deltaRotationVector);
// User code should concatenate the delta rotation we computed with the current rotation
// in order to get the updated rotation.
// rotationCurrent = rotationCurrent * deltaRotationMatrix; The initial rotation has to be computedand then at each step updated
/*Rotation current is a vector with rotation on pitch, roll, yaw (3x1) multiplied by 3x3 rotation matrix i have the new orientation*/

/*In the "xyz (pitch-roll-yaw) convention," theta is pitch, psi is roll, and phi is yaw. */

double pitch = Math.atan2(deltaRotationMatrix[6], deltaRotationMatrix[7]);
double roll = Math.acos(deltaRotationMatrix[8]);
double yaw = - Math.atan2(deltaRotationMatrix[2], deltaRotationMatrix[5]);
``````

I don´t know where is the problem, but the yaw, roll, pitch values I obtained using this code are wrong, because i obtained total different values even if the phone is in the same orientation. I compute them from the rotation matrix in the last three lines of code. And also the values of yaw, pitch roll written in the formulas, are in radians?

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There is not much to add to Kay's answer, that is the right thing to do. However I hope you know that yaw, pitch and roll are evil and inappropriate for interpolation. –  Ali Oct 17 '12 at 19:47