Reconstruction in one dimension from unlabeled Euclidean lengths

Abstract

Let G be a 3-connected ordered graph with n vertices and m edges. Let p be a randomly chosen mapping of these n vertices to the integer range \1, 2,3, …, 2b\ for b m2. Let be the vector of m Euclidean lengths of G's edges under p. In this paper, we show that, with high probability over p, we can efficiently reconstruct both G and p from . This reconstruction problem is NP-HARD in the worst case, even if both G and are given. We also show that our results stand in the presence of small amounts of error in , and in the real setting, with sufficiently accurate length measurements. Our method combines lattice reduction, which has previously been used to solve random subset sum problems, with an algorithm of Seymour that can efficiently reconstruct an ordered graph given an independence oracle for its matroid.