The distance approach to approximate combinatorial counting

Alexander Barvinok, Alex Samorodnitsky

Research output: Contribution to journalArticlepeer-review

4 Scopus citations

Abstract

We develop general methods to obtain fast (polynomial time) estimates of the cardinality of a combinatorially defined set via solving some randomly generated optimization problems on the set. Examples include enumeration of perfect matchings in a graph, linearly independent subsets of a set of vectors and colored spanning subgraphs of a graph. Geometrically, we estimate the cardinality of a subset of the Boolean cube via the average distance from a point in the cube to the subset with respect to some distance function. We derive asymptotically sharp cardinality bounds in the case of the Hamming distance and show that for small subsets a suitably defined "randomized" Hamming distance allows one to get tighter estimates of the cardinality.

Original languageEnglish
Pages (from-to)871-899
Number of pages29
JournalGeometric and Functional Analysis
Volume11
Issue number5
StatePublished - 2001
Externally publishedYes

Bibliographical note

Funding Information:
The research of the first author was partially supported by NSF Grant DMS 9734138. The research of the second author was partially supported by a State of New Jersey grant.

Funding

The research of the first author was partially supported by NSF Grant DMS 9734138. The research of the second author was partially supported by a State of New Jersey grant.

FundersFunder number
State of New Jersey
National Science FoundationDMS 9734138
Directorate for Mathematical and Physical Sciences9734138

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