# How to move a kinect skeleton to another position

I am working on a extension method to move one skeleton to a desired position in the kinect field os view.

My code receives a skeleton to be moved and the destiny position, i calculate the distance between the received skeleton hip center and the destiny position to find `how much to move`, then a iterate in the joint applying this factor. My code, actualy looks like this.

``````public static Skeleton MoveTo(this Skeleton skToBeMoved, Vector4 destiny)
{
Joint newJoint = new Joint();

///Based on the HipCenter (i dont know if it is reliable, seems it is.)
float howMuchMoveToX = Math.Abs(skToBeMoved.Joints[JointType.HipCenter].Position.X - destiny.X);
float howMuchMoveToY = Math.Abs(skToBeMoved.Joints[JointType.HipCenter].Position.Y - destiny.Y);
float howMuchMoveToZ = Math.Abs(skToBeMoved.Joints[JointType.HipCenter].Position.Z - destiny.Z);
float howMuchToMultiply = 1;

// Iterate in the 20 Joints
foreach (JointType item in Enum.GetValues(typeof(JointType)))
{
newJoint = skToBeMoved.Joints[item];

// This adjust, try to keeps the skToBeMoved in the desired position
if (newJoint.Position.X < 0)
howMuchToMultiply = 1; // if the point is in a negative position, carry it to a "more positive" position
else
howMuchToMultiply = -1; // if the point is in a positive position, carry it to a "more negative" position

// applying the new values to the joint
SkeletonPoint pos = new SkeletonPoint()
{
X = newJoint.Position.X + (howMuchMoveToX * howMuchToMultiply),
Y = newJoint.Position.Y, // * (float)whatToMultiplyY,
Z = newJoint.Position.Z, // * (float)whatToMultiplyZ
};

newJoint.Position = pos;
skToBeMoved.Joints[item] = newJoint;

//if (skToBeMoved.Joints[JointType.HipCenter].Position.X < 0)
//{
//    if (item == JointType.HandLeft)
//    {
//        if (skToBeMoved.Joints[item].Position.X > 0)
//        {

//        }
//    }
//}
}

return skToBeMoved;
}
``````

Actualy, only X position is considered.

Now, THE PROBLEM:

If i stand in a negative position, and move my hand to a positive position, a have a strange behavior, look this image

To reproduce this behaviour you could use this code

``````using (SkeletonFrame frame = e.OpenSkeletonFrame())
{
if (frame == null)
return new Skeleton();

if (skeletons == null || skeletons.Length != frame.SkeletonArrayLength)
{
skeletons = new Skeleton[frame.SkeletonArrayLength];
}
frame.CopySkeletonDataTo(skeletons);

Skeleton skeletonToTest = skeletons.Where(s => s.TrackingState == SkeletonTrackingState.Tracked).FirstOrDefault();

Vector4 newPosition = new Vector4();
newPosition.X = -0.03412333f;
newPosition.Y = 0.0407479f;
newPosition.Z = 1.927342f;
newPosition.W = 0; // ignored

skeletonToTest.MoveTo(newPosition);
}
``````

I know, this is simple math, but i cant figure it out why this is happen. Any help will be apreciated.

-
it should be a matter of adding the new position translation vector to each joint position in the skeleton and nothing more –  George Profenza Nov 25 '12 at 16:43
@George Profenza Yes, it is! Whats your code modifications to solve it? –  Ewerton Nov 25 '12 at 17:52
Glad you sorted out, I was out when you replied. Still, from my point of view, if `Vector4 destiny` is a relative position to translate towards it's just a matter doing doing someting like `currentPositionVector += translationVector`(in pseudo, as in, `currentJoint.x += newPos.x`,same for y and z). If `destiny is absolute`, you would use the difference between the current position and the new position. The part that puzzles me in your approach is why you flip (multiply by -1) the difference vector. Also, when you get the difference vector, you seem to only add the to the X component... –  George Profenza Nov 26 '12 at 0:24
...I haven't used the Kinect SDK much, are the skeleton positions 3D positions in relation to the kinect or converted 2D screen coordinates ?`Y = newJoint.Position.Y + (0)` and same for Z wouldn't change those coordinates. –  George Profenza Nov 26 '12 at 0:25

Problem solved. This is the code

``````public static Skeleton MoveTo(this Skeleton skToBeMoved, Vector4 destiny)
{
Joint newJoint = new Joint();

///Based on the HipCenter (i dont know if it is reliable, seems it is.)
float howMuchMoveToX = (skToBeMoved.Joints[JointType.HipCenter].Position.X - destiny.X) * -1;
float howMuchMoveToY = (skToBeMoved.Joints[JointType.HipCenter].Position.Y - destiny.Y) * -1;
float howMuchMoveToZ = (skToBeMoved.Joints[JointType.HipCenter].Position.Z - destiny.Z) * -1;

// Iterate in the 20 Joints
foreach (JointType item in Enum.GetValues(typeof(JointType)))
{
newJoint = skToBeMoved.Joints[item];

// applying the new values to the joint
SkeletonPoint pos = new SkeletonPoint()
{
X = (float)(newJoint.Position.X + (howMuchMoveToX)),
Y = (float)(newJoint.Position.Y + (howMuchMoveToY)),
Z = (float)(newJoint.Position.Z + (howMuchMoveToZ))
};

newJoint.Position = pos;
skToBeMoved.Joints[item] = newJoint;
}

return skToBeMoved;
}
``````
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