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Bidirected Graphs I: Signed General Kotzig-Lovász Decomposition

Published 21 Sep 2017 in math.CO | (1709.07414v1)

Abstract: This paper is the first from a series of papers that establish a common analogue of the strong component and basilica decompositions for bidirected graphs. A bidirected graph is a graph in which a sign $+$ or $-$ is assigned to each end of each edge, and therefore is a common generalization of digraphs and signed graphs. Unlike digraphs, the reachabilities between vertices by directed trails and paths are not equal in general bidirected graphs. In this paper, we set up an analogue of the strong connectivity theory for bidirected graphs regarding directed trails, motivated by factor theory. We define the new concepts of {\em circular connectivity} and {\em circular components} as generalizations of the strong connectivity and strong components. In our main theorem, we characterize the inner structure of each circular component; we define a certain binary relation between vertices in terms of the circular connectivity and prove that this relation is an equivalence relation. The nontrivial aspect of this structure arises from directed trails starting and ending with the same sign, and is therefore characteristic to bidirected graphs that are not digraphs. This structure can be considered as an analogue of the general Kotzig-Lov\'asz decomposition, a known canonical decomposition in $1$-factor theory. From our main theorem, we also obtain a new result in $b$-factor theory, namely, a $b$-factor analogue of the general Kotzig-Lov\'asz decomposition.

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