I would like to know if there are any standard techniques (that I don't know about) to solve the following problem.

Suppose we have $n$ variables, $\mathbf{q} = (a_1, a_2, \ldots, a_n)$, but not all of them are independent.  For example, the values could be determined by only a single variable, e.g. $(x, x^2, x^3)$, or only two, e.g. $(x, y, x^2, xy, y^2)$.

Now suppose we have some measurement data for $\mathbf{q}$, which might have small errors (i.e. the relationship between the variables is valid only to some error).  How can we find how many of the $n$ variables are independent of each other?

If the question is not clear, please ask.  I see that there are problems, e.g. in $(x, x^2, x^3)$, $x$ can determine the value of the rest of the variables, but $x^2$ cannot (if there are negative values).  Nevertheless any suggestions are most welcome.  I am only interested in the *number* of independent variables for now, not the nature of relationship between them.

**Note:**  I know about techniques in the case when the relationship between them is linear.  I am interested in the non-linear (but continues) case now.

**Note 2:** Please help tag the question appropriately...