I'm using MATLAB.

I have a three dimensional array filled with logicals. This array represents data of a cylinder with N uniformly shaped, but arbitrary orientated staples in it. The volume is discretized in voxels (3 dimensional pixels) and a logical '1' means 'at this point in the cylinder IS a part of a staple', while a '0' means 'at this point in the cylinder is air'.
The following picture contains **ONE** two dimensional **slice** of the full volume. Imagine the complete volume composed of such slices. **White means '1' and black means '0'.**

To my problem now: I have to **separate each staple** as good as possible.
The output products should be N three dimensional arrays with only the voxels belonging to a certain staple being '1', everything else '0'. So that I have arrays that only contain the data of one staple.

The biggest problem is, that '1's of different staples can lie next to each other **(touching each other and being entangled)**, making it difficult to decide to which staple they belong to.
Simplifying is the fact, that boundary voxels of a staple may be cut away, I can work with any output array which preserves the approximate shape of the original staple.

Maybe somebody of you can provide an idea how such a problem could be solved, or even name me algorithms which I can take a look at. Thanks in advance.