Superadditive set function explained

In mathematics, a superadditive set function is a set function whose value when applied to the union of two disjoint sets is greater than or equal to the sum of values of the function applied to each of the sets separately. This definition is analogous to the notion of superadditivity for real-valued functions. It is contrasted to subadditive set function.

Definition

Let

\Omega

be a set and

f\colon2\OmegaR

be a set function, where

2\Omega

denotes the power set of

\Omega

. The function f is superadditive if for any pair of disjoint subsets

S,T

of

\Omega

, we have

f(S)+f(T)\leqf(S\cupT)

.[1]

See also

Notes and References

  1. Web site: ON FINDING ADDITIVE, SUPERADDITIVE AND SUBADDITIVE SET-FUNCTIONS SUBJECT TO LINEAR INEQUALITIES . 1988 . 21 December 2015 . Nimrod Megiddo.