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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.

share|improve this question
    
Are people not answering because my question is not clear or just because there is no obvious answer ? Please let me know what i should add in order to get help. –  user3714670 Jul 12 at 14:23
    
Well, I'm not 100% sure here. But let me think aloud. You hold the flystick in some orientation which you consider the default orientation, and the tracking systems reports orientation R. You want to get identity transform for this situation, so you should apply the inverse of 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 at 13:42
    
@derhass i am not sure how i am supposed to calculate R^-1, the wikipedia article seems to tell that i should compose several structure but isn't there a general formula ? –  user3714670 Jul 15 at 9:02
    
The inverse of the quaternion is quite simple. See the matrix and quaternion FAQ, question 50. GLM has also an inverse() method for quaternions. –  derhass Jul 15 at 18:16
    
@derhass so i tried what you said, i did ref-1 * newQuat but the result quat doesn't look like identity, i am posting the code corresponding. –  user3714670 Jul 17 at 9:09

2 Answers 2

You have different calibrations possible for the flystick that may correspond to what you are expecting, however i suggest you read carefully the documentation about the flystick, your answer must be there. If you are using ART tracking, page 124 of the User manual will help you.

share|improve this answer
    
i am using ART indeed, let me take a look at this. –  user3714670 Jul 21 at 8:14

Change multiplication order. If you rotate first, than do it last if last than do it first.

The hidden problem of your question, we don't know your transformation notation.

Your rotation can transform from World To Object frame or from Object to world. Depending of notation , exact transformation will be different.

share|improve this answer
    
i am trying to do a rotation around the object's axis so it is what you call from World To Object. –  user3714670 Jul 15 at 7:57

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