A Constant-Approximation Distance Labeling Scheme under Polynomially Many Edge Failures

Abstract

A fault-tolerant distance labeling scheme assigns a label to each vertex and edge of an undirected weighted graph G with n vertices so that, for any edge set F of size |F| ≤ f, one can approximate the distance between p and q in G F by reading only the labels of F \p,q\. For any k, we present a deterministic polynomial-time scheme with O(k4) approximation and O(f4n1/k) label size. This is the first scheme to achieve a constant approximation while handling any number of edge faults f, resolving the open problem posed by Dory and Parter [DP21]. All previous schemes provided only a linear-in-f approximation [DP21, LPS25]. Our labeling scheme directly improves the state of the art in the simpler setting of distance sensitivity oracles. Even for just f = ( n) faults, all previous oracles either have super-linear query time, linear-in-f approximation [CLPR12], or exponentially worse 2 poly(k) approximation dependency in k [HLS24].