Shearer's inequality
This article may be too technical for most readers to understand.(December 2021) |
Shearer's inequality or also Shearer's lemma, in mathematics, is an inequality in information theory relating the entropy of a set of variables to the entropies of a collection of subsets. It is named for mathematician James Shearer.
Concretely, it states that if X1, ..., Xd are random variables and S1, ..., Sn are subsets of {1, 2, ..., d} such that every integer between 1 and d lies in at least r of these subsets, then
where is entropy and is the Cartesian product of random variables with indices j in .[1]
Combinatorial version[]
Let be a family of subsets of [n] (possibly with repeats) with each included in at least members of . Let be another set of subsets of . Then
where the set of possible intersections of elements of with .[2]
See also[]
References[]
- ^ Chung, F.R.K.; Graham, R.L.; Frankl, P.; Shearer, J.B. (1986). "Some Intersection Theorems for Ordered Sets and Graphs". J. Comb. Theory A. 43: 23–37. doi:10.1016/0097-3165(86)90019-1.
- ^ Galvin, David (2014-06-30). "Three tutorial lectures on entropy and counting". arXiv:1406.7872 [math.CO].
Categories:
- Information theory
- Inequalities