I am displaying characters on a screen connected to a flystick (3D tracking object). My goal is to move the characters according to device input.

I noticed the 'zero' of the device (corresponding to the default position) is not corresponding to a not rotated quaternion of my characters. When moving the device, my character moves around some other axis (probably world's) than the device's. So I added a synchronising function which registers the quaternion rotation of my device when it should be at the default position, but now I have no idea how to combine this reference quaternion with the actual quaternion I receive from the device when it moves in order to rotate my character as I intend.

Here is how i am using the quaternions with OpenGL :

```
glm::quat rotation = QAccumulative.getQuat();
glm::mat4 matrix_rotation = glm::mat4_cast(rotation);
object_transform *= matrix_rotation;
Model *= object_transform;
glm::mat4 MVP = Projection * View * Model;
```

It works fine with keyboard and mouse if I rotate my objects with this method:

```
rotate(float angleX,float angleY,float angleZ) {
Quaternion worldRotationx( 1.0,0,0, angleZ);
Quaternion worldRotationy( 0,1.0,0, angleX);
Quaternion worldRotationz( 0,0,1.0, angleY);
QAccumulative = worldRotationx * worldRotationy * worldRotationz * QAccumulative;
QAccumulative.normalise();
}
```

Here is the main loop, where I compute the data from the tracking device:

```
void VRPN_CALLBACK handle_tracker(void* userData, const vrpn_TRACKERCB t ) {
Vrpn_tracker* current = Vrpn_tracker::current_vrpn_device;
if (current->calibrating == true) {
current->reference = Quaternion(t.quat[0],t.quat[1],t.quat[2],t.quat[3]);
current->reference.normalise();
} else {
// translation :
current->newPosition = sf::Vector3f(t.pos[0],t.pos[1],t.pos[2]);
current->world->current_object->translate(
current->newPosition.x - current->oldPosition.x,
current->newPosition.y - current->oldPosition.y,
current->newPosition.z - current->oldPosition.z);
current->oldPosition = current->newPosition;
// rotation:
current->newQuat = Quaternion(t.quat[0],t.quat[1],t.quat[2],t.quat[3]);
current->newQuat.normalise();
current->world->current_object->QAccumulative =
(current->reference.getConjugate() * current->newQuat);
Quaternion result = current->world->current_object->QAccumulative;
cout << "result? : " << result.x << result.y << result.z << result.w << endl;
// prints something like:
// x : -0.00207066 y : 0.00186546 z : -0.00165524 w : 0.999995
// when position of flystick = default position
}
}
```

The simple test I do to check the code: I start my program without moving the flystick, (ref quaternion is getting captured) so after the synchronisation the character should be in the default position (not moved) as I haven't touched the flystick.

I did try to multiply my reference by the quaternion received but it seems my character is moving according to local axis.

If someone could shed some light on how I can get the rotation in global axis from these two quaternions it would be great.

inverseof R, that is R^-1, to all of the tracking orientation inputs X, i.e. X'=R^-1*X so that for X=R => X'=I. – derhass Jul 13 '14 at 13:42`inverse()`

method for quaternions. – derhass Jul 15 '14 at 18:16