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2

I don't really get what you want to do with the x member of the quaternion. If anything you are comparing the x-coordinate of different rotation axes. However if I get the question right, you are looking for the difference of rotation angles around the x-axis. In this case http://en.wikipedia.org/wiki/Conversion_between_quaternions_and_Euler_angles explains ...

1

I found the answer on the sourceforge documentation page octave:32> a=quaternion(1,2,3,4); octave:33> a a = 1 + 2i + 3j + 4k octave:34> a.w ans = 1 octave:35> a.x ans = 2 octave:36> a.y ans = 3 octave:37> a.z ans = 4

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I think your equation is off by a sign in the top right corner, does this work for you 1.0 - 2.0yy - 2.0zz, 2.0xy - 2.0zw, 2.0xz + 2.0yw 2.0xy + 2.0zw, 1.0 - 2.0xx - 2.0zz, 2.0yz - 2.0xw 2.0xz - 2.0yw, 2.0yz + 2.0xw, 1.0 - 2.0xx - 2.0yy

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This is not PHP, but C++. It should be easy to transfer to PHP. Invalid/gimbal cases can be seen where either rotateX, rotateY or rotateZ is not assinged because the value would be NaN. //Our Quaternion is defined by qx,qy,qz,qw double qx; double qy; double qz; double qw; double rotateXa0 = ...

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This code works, but I'm not sure it's 100% correct. Plane plane = new Plane(Vector3.up, 0); float dist; void Update () { //cast ray from camera to plane (plane is at ground level, but infinite in space) Ray ray = Camera.mainCamera.ScreenPointToRay(Input.mousePosition); if (plane.Raycast(ray, out dist)) { Vector3 point = ...

3

You need to maintain a separate variable for the interpolation and update that every frame. Otherwise your Time.deltaTime * rotationSpeed will keep going up forever past the 0-1 range. private float _RawLerp; private float _Lerp; public float _Speed; public transform _Source; public transform _Target; private transform _TransformCache; // the transform for ...

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In Matlab a quaternion is a 1x4 vector, thus an array of quaternions is a nx4 matrix. %create: x=zeros(n,4); %access: x(2,:)

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Quaternions are not vectors. I suggest you start by watching the vector tutorial on Unity's web site. The last bit of the tutorial goes over what cross products are and why you would use them - specifically, you can use them to obtain a relative axis around which you may want to rotate something.

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Unfortunately it isn't terribly simple to do, but it is possible. Here's a whitepaper explaining the math behind it: http://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/20070017872_2007014421.pdf Check out the Unity3D Wiki page (with code): http://wiki.unity3d.com/index.php/Averaging_Quaternions_and_Vectors Also this post: ...

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You might not have to deal with a rotation matrix at all. Here is a way that appears to be faster than converting to a matrix and multiplying a vector with it: // move vector to camera position co (before or after rotation depending on the goal) v -= co; // rotate vector v by quaternion q; see info [1] vec3 t = 2 * cross(q.xyz, v); v = v + q.w * ...

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I had to change the car-turret setup and created a separate rigid body for the turret. So now I have 2 different rigid bodies, the car and the turret. After going through the ConstraintDemo I came out with this: // create constraint btVector3 axisA(0.f, 1.f, 0.f); btVector3 axisB(0.f, 0.f, 0.f); btVector3 pivotA(0.f, 1.f, 0.f); btVector3 pivotB(0.f, 0.f, ...

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