Definition:Matroid/Examples
Examples of Matroids
Uniform Matroid
Let $S$ be a finite set of cardinality $n$.
Let $\mathscr I_{k, n}$ be the set of all subsets of $S$ of cardinality less than or equal to $k$.
Then the ordered pair $\struct {S, \mathscr I_{k, n} }$ is called the uniform matroid of rank $k$ and is denoted $U_{k, n}$.
Free Matroid
Let $S$ be a finite set.
Let $\mathscr I = \powerset S$ be the power set of $S$.
That is, let $\mathscr I$ be the set of all subsets of $S$:
- $\mathscr I := \set {X: X \subseteq S}$
Then the ordered pair $\struct {S, \mathscr I}$ is called the free matroid of $S$.
Matroid Induced by Linear Independence in Vector Space
Let $V$ be a vector space.
Let $S$ be a finite subset of $V$.
Let $\mathscr I$ be the set of linearly independent subsets of $S$.
Then the ordered pair $\struct{S, \mathscr I}$ is called a matroid induced on $S$ by linear independence in $V$.
Cycle Matroid
Let $G$ be a graph.
Let $E$ be the edge set of $G$.
Let $\mathscr I$ be the set of edge sets of subgraphs of $G$ that contain no cycles.
Then the ordered pair $\struct {E, \mathscr I}$ is called the cycle matroid of the graph $G$.
Matroid Induced by Algebraic Independence
Let $L / K$ be a field extension.
Let $S \subseteq L$ be a finite subset of $L$.
Let $\mathscr I$ be the set of algebraically independent subsets of $S$.
Then $\struct {S, \mathscr I}$ is called the matroid induced by algebraic independence over $K$ on $S$.
Matroid Induced by Affine Independence
Let $\R^n$ be the $n$-dimensional real Euclidean space.
Let $S = \set {x_1, \dots, x_r}$ be a finite subset of $\R^n$.
Let $\mathscr I$ be the set of affinely independent subsets of $S$.
Then $\struct {S, \mathscr I}$ is called the matroid induced by affine independence on $S$.
Matroid Induced by Linear Independence in Abelian Group
Let $\struct {G, +}$ be a torsion-free Abelian group.
Let $\struct {G, +, \times}$ be the $\Z$-module associated with $G$.
Let $S$ be a finite subset of $G$.
Let $\mathscr I$ be the set of linearly independent subsets of $S$.
Then the ordered pair $\struct {S, \mathscr I}$ is called the matroid induced by linear independence in $G$ on $S$.