Basically POSIT algorithm estimates the position of the object relative to camera from at least four non planar corresponding points. In the other hand the projector can be seen as a camera so if you identify the known points of the real object on the projected image, known the projection focal length, it should be possible to compute the relative position.

So what you should do is something like:

Identify at least four points on some object placed in front of projector. You can calculate the points coordinates using kinect.

Then you should identify those points on the projected image in the image coordinate system in the same order as 3d points.

Than you can use cvPosit function from OpenCV which will calculate the pose of the object relative to the camera.

Than given some object in the 3d space that you measure with kinect you can calculate the image coordinates applying the transformation computed by cvPOSIT.

There can be some specific conditions to be satisfied by the points used by algorithm, so
please see the following for deeper explanation of POSIT:
http://www.cfar.umd.edu/~daniel/daniel_papersfordownload/Pose25Lines.pdf

The following is the link to the opencv posit related documentation:
http://opencv.willowgarage.com/documentation/camera_calibration_and_3d_reconstruction.html#posit

http://opencv.willowgarage.com/documentation/camera_calibration_and_3d_reconstruction.html#createpositobject

http://opencv.willowgarage.com/documentation/camera_calibration_and_3d_reconstruction.html#releasepositobject

Step 4 clarification:

Quote from the original POSIT paper:
"The POSIT algorithm finds the translation vector and the transformation matrix that transform the object onto the camera coordinate system so that its feature points fall on the lines
of sight of the image points"

Assume we have n 3d points (kPoints) in the Kinect coordinate system, we have the Rotation (r[3][3]) and Translation (t[3]) from POSIT, focal length of the projector image plane and finally we know the coordinates of the first 3D point (kOrigin) we used with POSIT.
Then we need to translate our points to be in the POSIT coordinate system:

```
kPoints[i] = kPoints[i] - kOrigin;
kPoints[i] = Rotate(kPoints[i], r);
kPoints[i] = kPoints[i] + t;
imagePoint[i].x = focalLength * kPoints[i].x/kPoints[i].z
imagePoint[i].y = focalLength * kPoints[i].y/kPoints[i].z
```