Optimal Query Complexity for Reconstructing Hypergraphs

Abstract

In this paper we consider the problem of reconstructing a hidden weighted hypergraph of constant rank using additive queries. We prove the following: Let G be a weighted hidden hypergraph of constant rank with n vertices and m hyperedges. For any m there exists a non-adaptive algorithm that finds the edges of the graph and their weights using O(m n m) additive queries. This solves the open problem in [S. Choi, J. H. Kim. Optimal Query Complexity Bounds for Finding Graphs. STOC, 749--758,~2008]. When the weights of the hypergraph are integers that are less than O(poly(nd/m)) where d is the rank of the hypergraph (and therefore for unweighted hypergraphs) there exists a non-adaptive algorithm that finds the edges of the graph and their weights using O(m ndm m). additive queries. Using the information theoretic bound the above query complexities are tight.