I have divided a two-dimensional coordinate system into several regions that form a partition. Now I want to define a line that is formed by the lower bound of some of these regions, and I cannot think of a correct, let alone elegant way to formulate this.
For example, I have three regions $A,B,C$, where $A=\left\{(x,y)|x
My idea is something like \begin{equation} l=\left\{ \left( x,\inf_y\vert(x,y)\in A \cup B\right) \right\} \end{equation} So in words: the line is the set of all points where y is the smallest element s.th. $(x,y)$ is still contained n $A\cup B$.
Is this even correct, and is this the most elegant solution? Is there any difference to \begin{equation} l= \inf_y \left\{ \left( x,y\right) \right\}\vert (x,y)\in A\cup B \end{equation} Do I maybe have to work with $\min$ instead of $\inf$? I'm wondering because the notation $\inf_y(x,y)$ suggests that $(x,y)$ is the smallest element, but clearly a 2-dimensional vector is not in an ordered set.