The dual notion is lower set (alternatively, down set, decreasing set, initial segment; the set is downward closed), which is any subset Y of a given partially ordered set (X,≤) such that, for all elements x and y, if x is less than or equal to y and y is an element of Y, then x is also in Y. More formally,
Properties
Every partially ordered set is an upper set of itself. The intersection of upper sets is again an upper set. The complement of any upper set is a lower set, and vice versa.Given a partially ordered set (X,≤), the family of lower sets of X ordered with the inclusion relation is a complete lattice, the down-set lattice O(X).
Given an arbitrary subset Y of an ordered set X, the smallest upper set containing Y is denoted using an up arrow as ↑Y. Dually, the smallest lower set containing Y is denoted using a down arrow as ↓Y. A lower set is called principal if it is of the form ↓{x} where x is an element of X. Every lower set Y of a finite ordered set X is equal to the smallest lower set containing all maximal elements of Y: Y = ↓Max(Y) where Max(Y) denotes the set containing the maximal elements of Y.
A directed lower set is called an order ideal.
The minimal elements of any upper set form an antichain. Conversely any antichain A determines an upper set {x: for some y in A, x ≥ y}. For partial orders satisfying the descending chain condition this correspondence between antichains and upper sets is 1-1, but for more general partial orders this is not true.
Ordinal numbers
An ordinal number is usually identified with the set of all smaller ordinal numbers. Thus the ordinal numbers are exactly the lower sets of ordinal numbers.References
- Blanck, J. (2000) "Domain representations of topological spaces". Theoretical Computer Science, 247, 229–255.
- Hoffman, K. H. (2001), The low separation axioms (T0) and (T1)
- Davey, B.A., and Priestley, H. A. (2002). Introduction to Lattices and Order. Second Edition, Cambridge University Press. ISBN 0-521-78451-4.
External links
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Last updated on Saturday July 05, 2008 at 02:35:48 PDT (GMT -0700)
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