Order dimension

From Wikipedia, the free encyclopedia

In mathematics, if P and Q are posets on the same set X, Q is an extension of P if $x\leq y$ in P implies $x\leq y$ in Q, for all $x,y\in X$ . If Q is a linear order then it is a linear extension of P.

The dimension (or Dushnik-Miller dimension) $\dim P$ of P is the least integer t for which there exists a family

$\mathcal R=(<_1,\dots,<_t)$

of linear extensions of P so that

$P=\bigcap\mathcal R=\bigcap_{i=1}^t <_i$ ,

that is: such that $x\leq y$ in P if and only if $x\leq_i y$ for all $1\leq i\leq t$ .

This concept was introduced by Dushnik and Miller in 1941.

A family $\mathcal R=(<_1,\dots,<_t)$ of linear orders on X is called a realizer of P on X if

$P=\bigcap\mathcal R$ .

[edit] Example

Let $n$ be a positive integer. The standard example $S n$ of partial order of dimension $n$ is the partial order of height two on

$\{a_1,\dots,a_n,b_1,\dots,b_n\}$ ,

with minima

$\{a_1,\dots,a_n\}$ , maxima $\{b_1,\dots,b_n\}$

and such that

$\forall i,j,\quad (a_i<b_j)\iff(i\neq j)$ .

[edit] References

B. Dushnik and E.W. Miller, Partially ordered sets, Amer. J. Math. 63 (1941), 600--610.
W.T. Trotter, Combinatorics and partially ordered sets: Dimension theory, John Hopkins series in the mathematical sciences, Johns Hopkins University Press, London, 1992.

Retrieved from "http://en.wikipedia.org../../../o/r/d/Order_dimension.html"

Categories: Order theory | Dimension theory

Order dimension

From Wikipedia, the free encyclopedia

[edit] Example

[edit] References

Views

Navigation

Search