Flip Distances Between Graph Orientations

Author:

Aichholzer Oswin,Cardinal Jean,Huynh Tony,Knauer Kolja,Mütze Torsten,Steiner RaphaelORCID,Vogtenhuber Birgit

Abstract

AbstractFlip graphs are a ubiquitous class of graphs, which encode relations on a set of combinatorial objects by elementary, local changes. Skeletons of associahedra, for instance, are the graphs induced by quadrilateral flips in triangulations of a convex polygon. For some definition of a flip graph, a natural computational problem to consider is the flip distance: Given two objects, what is the minimum number of flips needed to transform one into the other? We consider flip graphs on orientations of simple graphs, where flips consist of reversing the direction of some edges. More precisely, we consider so-called $$\alpha$$ α -orientations of a graph G, in which every vertex v has a specified outdegree $$\alpha (v)$$ α ( v ) , and a flip consists of reversing all edges of a directed cycle. We prove that deciding whether the flip distance between two $$\alpha$$ α -orientations of a planar graph G is at most two is -complete. This also holds in the special case of perfect matchings, where flips involve alternating cycles. This problem amounts to finding geodesics on the common base polytope of two partition matroids, or, alternatively, on an alcoved polytope. It therefore provides an interesting example of a flip distance question that is computationally intractable despite having a natural interpretation as a geodesic on a nicely structured combinatorial polytope. We also consider the dual question of the flip distance between graph orientations in which every cycle has a specified number of forward edges, and a flip is the reversal of all edges in a minimal directed cut. In general, the problem remains hard. However, if we restrict to flips that only change sinks into sources, or vice-versa, then the problem can be solved in polynomial time. Here we exploit the fact that the flip graph is the cover graph of a distributive lattice. This generalizes a recent result from Zhang et al. (Acta Math Sin Engl Ser 35(4):569–576, 2019).

Funder

European Research Council

Deutsche Forschungsgemeinschaft

Agence Nationale de la Recherche

Austrian Science Fund

Publisher

Springer Science and Business Media LLC

Subject

Applied Mathematics,Computer Science Applications,General Computer Science

Cited by 4 articles. 订阅此论文施引文献 订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献

1. Inapproximability of shortest paths on perfect matching polytopes;Mathematical Programming;2023-10-21

2. Monotone Edge Flips to an Orientation of Maximum Edge-Connectivity à la Nash-Williams;ACM Transactions on Algorithms;2023-01-31

3. Inapproximability of Shortest Paths on Perfect Matching Polytopes;Integer Programming and Combinatorial Optimization;2023

4. Shortest Reconfiguration of Perfect Matchings via Alternating Cycles;SIAM Journal on Discrete Mathematics;2022-04-28

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