English

Capacitated Network Bargaining Games: Stability and Structure

Discrete Mathematics 2024-09-05 v3 Combinatorics

Abstract

Capacitated network bargaining games are popular combinatorial games that involve the structure of matchings in graphs. We show that it is always possible to stabilize unit-weight instances of this problem (that is, ensure that they admit a stable outcome) via capacity-reduction and edge-removal operations, without decreasing the total value that the players can get. Furthermore, for general weighted instances, we show that computing a minimum amount of vertex-capacity to reduce to make an instance stable is a polynomial-time solvable problem. We then exploit this to give approximation results for the NP-hard problem of stabilizing a graph via edge-removal operations. Our work extends and generalizes previous results in the literature that dealt with a unit-capacity version of the problem, using several new arguments. In particular, while previous results mainly used combinatorial techniques, we here rely on polyhedral arguments and, more specifically, on the notion of circuits of a polytope.

Keywords

Cite

@article{arxiv.2311.09904,
  title  = {Capacitated Network Bargaining Games: Stability and Structure},
  author = {Laura Sanità and Lucy Verberk},
  journal= {arXiv preprint arXiv:2311.09904},
  year   = {2024}
}

Comments

20 pages

R2 v1 2026-06-28T13:23:25.173Z