I created two objects in Unity3D, representing an upperarm (parent) and a lowerarm (child), joined with a character joint. The rotation of these objects is driven by 2 quaternions which i gather from an IMU located on the upperarm and lowerarm. I calibrate both quaternions. My objective is to visualize an elbow flexion/extension.

Q in the name indicates it is a Quaternion. QImu indicates it is the Quaternion from the IMU. Qstart indicates it is the initial starting orientation of the IMU.

// upperarm script attached to upperarm object
if (Input.GetKeyDown(KeyCode.Space))
            QstartUpperArm = QimuUpperArm;

        transform.localRotation = QstartUpperArm * Quaternion.Inverse(QimuUpperArm);
// lowerarm script attached to lowerarm object
if (Input.GetKeyDown(KeyCode.Space))
            QstartLowerArm = QimuLowerArm;

        QimuLowerArm = QstartLowerArm * Quaternion.Inverse(QimuLowerArm);
transform.localrotation = Quaternion.Inverse(Qstart2 * Quaternion.Inverse(Qimu2)) * Qimu1new;

The Upperarm object is rotating exactly as expected. The lowerarm object however has one the y-axis reversed. All other axis are fine. How can i change the sign of this one axis using the Quaternion?

  • Rotate about a perpendicular axis by 180 degrees. Unfortunately you can't negate just one axis without using negative scale or changing the handedness of the whole system. – Leo Bartkus Jul 15 at 12:04
  • Can you explain a little more what you mean by "the y-axis is reversed"? Are you saying it's rotating the wrong direction around the upper arm's local y axis? We might need images or a video to get a visual of what's happening here. – Ruzihm Jul 15 at 16:57
  • This is kind of a shot in the dark without seeing exactly what's going on... Try this: Quaternion reversedY = Quaternion.Inverse(Qstart2 * Quaternion.Inverse(Qimu2)) * Qimu1new; transform.localrotation = Quaternion.Euler(Vector3.Scale(reversedY, new Vector3(1f, -1f, 1f) ) ); – Ruzihm Jul 15 at 17:25
  • @pvand let us know if that works – Ruzihm Jul 16 at 13:57
  • I found something online which had a similar issue, the solution is: Vector3 myEulerAngles = QimuLowerArm.eulerAngles; Quaternion invertedRotation = Quaternion.Euler(myEulerAngles.x, -myEulerAngles.y, myEulerAngles.z); transform.localRotation = invertedRotation; So i guess your soluiton is kind of similar. – pvand Jul 16 at 20:14

You shouldn't do this directly in a Quaternion. It sounds like you are confusing Quaternion (which has 4 components x,y,z,w) with the Euler space representation in x,y,z.

You could try using something like

var invertedRotation = Quaternion.Euler(Vector3.Scale(QimuLowerArm.eulerAngles, Vector3.up * -1));

Depending on which is the rotation you have to invert (didn't clearly see this in your code).

  • eulerAngles returns an Euler representation of the Quaternion

  • Vector3.Scale multiplies to Vector3 component wise. In this case by Vector3.up * -1 == new Vector3(0, -1, 0);

  • Quaternion.Euler generates a Quaternion for a rotation on given Euler angles. One has to note here that the rotations are applied in the order x then z then y but since you are inverting the latter it should be fine.

An alternative afaik (not so sure about) is to

  • negate the according axis component
  • negate the w component

I still wouldn't do this directly in the quaternion because the order matters a lot but do e.g.

var invertedRotation = new Quaternion (QimuLowerArm.x, - QimuLowerArm.y, QimuLowerArm.z, -QimuLowerArm.w);
  • The first solution kind of works, whenever i hold the upperarm in the same rotation. However if i start to rotate the upperarm, the lowerarm start to rotate over the axis i just reversed. In other words i start to flex when i rotate my upperarm-object sideways... – pvand Jul 15 at 16:03

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