Attacking Shortest Paths by Cutting Edges

Academic Article

Abstract

  • Identifying shortest paths between nodes in a network is a common graph analysis problem that is important for many applications involving routing of resources. An adversary that can manipulate the graph structure could alter traffic patterns to gain some benefit (e.g., make more money by directing traffic to a toll road). This article presents theForce Path Cutproblem, in which an adversary removes edges from a graph to make a particular path the shortest between its terminal nodes. We prove that the optimization version of this problem is APX-hard but introducePATHATTACK, a polynomial-time approximation algorithm that guarantees a solution within a logarithmic factor of the optimal value. In addition, we introduce theForce Edge CutandForce Node Cutproblems, in which the adversary targets a particular edge or node, respectively, rather than an entire path. We derive a nonconvex optimization formulation for these problems and derive a heuristic algorithm that usesPATHATTACKas a subroutine. We demonstrate all of these algorithms on a diverse set of real and synthetic networks, illustrating where the proposed algorithms provide the greatest improvement over baseline methods.
  • Authors

  • Miller, Benjamin A
  • Shafi, Zohair
  • Ruml, Wheeler
  • Vorobeychik, Yevgeniy
  • Eliassi-Rad, Tina
  • Alfeld, Scott
  • Status

    Publication Date

  • February 29, 2024
  • Digital Object Identifier (doi)

    Start Page

  • 1
  • End Page

  • 42
  • Volume

  • 18
  • Issue

  • 2