I am developing a Unity iOS application where i need to use the compass to calculate a heading offset for the gyro. Currently I am using the `Input.compass.trueHeading`

to calculate a quaternion.

```
m_compassOrientation = Quaternion.Euler (
Mathf.Rad2Deg * Mathf.Asin (-Input.gyro.gravity.z),
Input.compass.trueHeading,
Mathf.Rad2Deg * Mathf.Atan2 (Input.gyro.gravity.y, -Input.gyro.gravity.x) + 90f
);
```

The problem with this approach is when the phone tilts past a certain point the trueHeading changes its direction thus returning in incorrect orientation.

For this reason I am attempting to implement tilt compensation using the compasses raw heading values, but the result is extremely jittery and unusable.

```
// Filter the input
m_acceleration = Input.acceleration * FILTERING_FACTOR + m_acceleration * (1.0f - FILTERING_FACTOR);
m_magnetomter = Input.compass.rawVector * (FILTERING_FACTOR-0.05f) + m_magnetomter * (1.0f - FILTERING_FACTOR-0.5f) + m_magnetomter * (0.55f);
Vector3 gravity = m_acceleration.normalized;
Vector3 compass = m_magnetomter.normalized;
// Calculate directions
Vector3 east = Vector3.Cross(gravity, compass).normalized;
Vector3 north = Vector3.Cross(east, gravity).normalized;
Vector3 up = gravity;
Matrix4x4 m = Matrix4x4.identity;
m [0, 0] = east.x; m [1, 0] = up.x; m [2, 0] = north.x;
m [0, 1] = east.y; m [1, 1] = up.y; m [2, 1] = north.y;
m [0, 2] = east.z; m [1, 2] = up.z; m [2, 2] = north.z;
m_compassOrientation = m.getRotation ();
```

If anyone could offer any advise, or an alternative solution for retrieving a heading that will always point north no matter what orientation the device is held, It would be highly appreciated.

Cheers

Here is the Matrix4x4.getRotation() method i'm using if anyone needs it.

```
public static Quaternion getRotation(this Matrix4x4 m)
{
Quaternion q = new Quaternion();
q.w = Mathf.Sqrt( Mathf.Max( 0, 1 + m[0,0] + m[1,1] + m[2,2] ) ) / 2;
q.x = Mathf.Sqrt( Mathf.Max( 0, 1 + m[0,0] - m[1,1] - m[2,2] ) ) / 2;
q.y = Mathf.Sqrt( Mathf.Max( 0, 1 - m[0,0] + m[1,1] - m[2,2] ) ) / 2;
q.z = Mathf.Sqrt( Mathf.Max( 0, 1 - m[0,0] - m[1,1] + m[2,2] ) ) / 2;
q.x *= Mathf.Sign( q.x * ( m[2,1] - m[1,2] ) );
q.y *= Mathf.Sign( q.y * ( m[0,2] - m[2,0] ) );
q.z *= Mathf.Sign( q.z * ( m[1,0] - m[0,1] ) );
return q;
}
```