**This answer is based on @andand comment. The credit is all his.**

If I have a nested list called "region", with lists of the 2d coordinates, I would get the "convex hull" of it writing

```
Needs["ComputationalGeometry`"]
regionhull = ConvexHull[ region ]
```

But "ConvexHull" gives us the indices of the lists within the nested list, in counterclockwise order, corresponding to the convex boundary of the region. Thus, an adittional step is needed, to make the needed output:

```
regionboundary = region[[ regionhull ]]
```

But still, this answer is incomplete. It seems to me that a "concave hull" algorithm would be the more general solution. Would anyone know anything about the concave hull in Mathematica? I may post an additional question for that.

Below, I show a figure to understand the concave and convex hull algorithms extracted from

http://gis.stackexchange.com/questions/1200/concave-hull-definition-algorithms-and-practical-solutions

A tutorial for the "Computational Geometry Package" is found at

http://reference.wolfram.com/mathematica/ComputationalGeometry/tutorial/ComputationalGeometry.html

** **Addendum** **

**The package "alphahull" can solve the problem of finding the boundary of a concave region. Its description is found here:**

http://cran.r-project.org/web/packages/alphahull/vignettes/alphahull.pdf