Kneser graph: Difference between revisions

Definition

Suppose ${\displaystyle n}$ and ${\displaystyle k}$ are positive integers. The Kneser graph ${\displaystyle KG_{n,k}}$ is an undirected graph defined as follows. Fix a set of size ${\displaystyle n}$ (we usually take the set as ${\displaystyle \{1,2,\dots ,n\}}$ for convenience). Then:

1. The vertex set of ${\displaystyle KG_{n,k}}$ is the collection of ${\displaystyle k}$-element subsets of the fixed set of size ${\displaystyle n}$.
2. The edge set of ${\displaystyle KG_{n,k}}$ is defined as follows: two vertices of ${\displaystyle KG_{n,k}}$ are adjacent if and only if they are disjoint when viewed as subsets of the ${\displaystyle n}$-element set.

Particular cases

Condition on ${\displaystyle n}$ and ${\displaystyle k}$	Conclusion
${\displaystyle k>n}$	The vertex set is empty, so the graph is a graph on no vertices
${\displaystyle k=n}$	one-point graph
${\displaystyle n/2<k<n}$	The vertex set is non-empty, but the edge set is empty, so the graph is an empty graph
${\displaystyle k=n/2}$	In this case, the graph is a matching graph: it is a disjoint union of 2-cliques, with one 2-clique for each partition of the ${\displaystyle n}$-set into two disjoint pieces of equal size.
${\displaystyle 1<k<n/2}$	This is the interesting case. In this case, the graph is connected and non-empty, but is not a complete graph.
${\displaystyle k=1}$	complete graph ${\displaystyle K_{n}}$
${\displaystyle k=0}$	one-point graph