A set function f on a finite set V is submodular if f(X) + f(Y) ≥ f(X ∪ Y) + f(X ∩ Y) for any pair X, Y ⊆ V. The symmetric difference transformation (SD-transformation) of f by a canonical set S ⊆ V is a set function g given by g(X) = f(X Δ S) for X ⊆ V, where X Δ S = (X \S) ∪ (S \X) denotes the symmetric difference between X and S. Submodularity and SD-transformations are regarded as the counterparts of convexity and affine transformations in a discrete space, respectively. However, submodularity is not preserved under SD-transformations, in contrast to the fact that convexity is invariant under affine transformations. This paper presents a characterization of SD-transformations preserving submodularity. Then, we are concerned with the problem of discovering a canonical set S, given the SD-transformation g of a submodular function f by S, provided that g(X) is given by a function value oracle. A submodular function f on V is said to be strict if f(X) + f(Y) > f(X ∪ Y) + f(X ∩ Y) holds whenever both X \Y and Y \X are nonempty. We show that the problem is solved by using O(|V|) oracle calls when f is strictly submodular, although it requires exponentially many oracle calls in general.
All Science Journal Classification (ASJC) codes
- 数学 (全般)