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Short signed circuit covers of signed graphs

A signed graph G is a graph associated with a mapping σ: E(G)→{+1,−1}. An edge e∈E(G) is positive if σ(e)=1 and negative if σ(e)=−1. A circuit in G is balanced if it contains an even number of negative edges, and unbalanced otherwise. A barbell consists of two unbalanced circuits joined by a path. A...

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Published in:	Discrete Applied Mathematics 2018-01, Vol.235, p.51-58
Main Authors:	Chen, Jing, Fan, Genghua
Format:	Article
Language:	English
Subjects:	Circuit cover Circuits Edge joints Graphs Minimum circuit cover Signed circuit Signed graph Studies
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container_title	Discrete Applied Mathematics
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creator	Chen, Jing Fan, Genghua
description	A signed graph G is a graph associated with a mapping σ: E(G)→{+1,−1}. An edge e∈E(G) is positive if σ(e)=1 and negative if σ(e)=−1. A circuit in G is balanced if it contains an even number of negative edges, and unbalanced otherwise. A barbell consists of two unbalanced circuits joined by a path. A signed circuit of G is either a balanced circuit or a barbell. A signed graph is coverable if each edge is contained in some signed circuit. An oriented signed graph (bidirected graph) has a nowhere-zero integer flow if and only if it is coverable. A signed circuit cover of G is a collection F of signed circuits in G such that each edge e∈E(G) is contained in at least one signed circuit of F; The length of F is the sum of the lengths of the signed circuits in it. The minimum length of a signed circuit cover of G is denoted by scc(G). The first nontrivial bound on scc(G) was established by Máčajová et al., who proved that scc(G)≤11\|E(G)\| for every coverable signed graph G, which was recently improved by Cheng et al. to scc(G)≤143\|E(G)\|. In this paper, we prove that scc(G)≤256\|E(G)\| for every coverable signed graph G.
doi_str_mv	10.1016/j.dam.2017.10.002
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An edge e∈E(G) is positive if σ(e)=1 and negative if σ(e)=−1. A circuit in G is balanced if it contains an even number of negative edges, and unbalanced otherwise. A barbell consists of two unbalanced circuits joined by a path. A signed circuit of G is either a balanced circuit or a barbell. A signed graph is coverable if each edge is contained in some signed circuit. An oriented signed graph (bidirected graph) has a nowhere-zero integer flow if and only if it is coverable. A signed circuit cover of G is a collection F of signed circuits in G such that each edge e∈E(G) is contained in at least one signed circuit of F; The length of F is the sum of the lengths of the signed circuits in it. The minimum length of a signed circuit cover of G is denoted by scc(G). The first nontrivial bound on scc(G) was established by Máčajová et al., who proved that scc(G)≤11\|E(G)\| for every coverable signed graph G, which was recently improved by Cheng et al. to scc(G)≤143\|E(G)\|. 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subjects	Circuit cover Circuits Edge joints Graphs Minimum circuit cover Signed circuit Signed graph Studies
title	Short signed circuit covers of signed graphs
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