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arxiv: 2211.17050 · v2 · pith:YDHNY3TZ · submitted 2022-11-30 · math.CO · cs.CC· cs.DM· cs.DS

Internal Closedness and von Neumann-Morgenstern Stability in Matching Theory: Structures and Complexity

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classification math.CO cs.CCcs.DMcs.DS
keywords matchingssetsstableinternallyneumann-morgensternclosedcomplexitymatching
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Let $G$ be a graph and suppose we are given, for each $v \in V(G)$, a strict ordering of the neighbors of $v$. A set of matchings ${\cal M}$ of $G$ is called internally stable if there are no matchings $M,M' \in {\cal M}$ such that an edge of $M$ blocks $M'$. The sets of stable (\`a la Gale and Shapley) matchings and of von Neumann-Morgenstern stable matchings are examples of internally stable sets of matching. In this paper, we study, in both the marriage and the roommate case, inclusionwise maximal internally stable sets of matchings. We call those sets internally closed. By building on known and newly developed algebraic structures associated to sets of matchings, we investigate the complexity of deciding if a set of matchings is internally closed or von Neumann-Morgenstern stable, and of finding sets with those properties.

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  1. A characterization of the von Neumann and Morgenstern stable set in matching markets

    econ.TH 2026-07 unverdicted novelty 7.0

    The vNM stable set in one-to-one matching markets is unique and equals the core of a reduced environment derived from internal stability and dominance relations.