A linear-time algorithm for the identifying code problem on block graphs

A linear-time algorithm for the identifying code problem on block graphs

The identifying code problem is a special search problem, challenging both from a theoretical and from a computational point of view, even for several graphs where other usually hard problems are easy to solve, like bipartite graphs or chordal graphs. Hence, a typical line of attack for this problem...

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Veröffentlicht in:Electronic notes in discrete mathematics 2017-11, Vol.62, p.249-254
Hauptverfasser: Argiroffo, Gabriela R., Bianchi, Silvia M., Lucarini, Yanina, Wagler, Annegret K.
Format: Artikel
Sprache:eng
Schlagworte:
block graphs
computational complexity
Computer Science
Discrete Mathematics
identifying codes
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Zusammenfassung:The identifying code problem is a special search problem, challenging both from a theoretical and from a computational point of view, even for several graphs where other usually hard problems are easy to solve, like bipartite graphs or chordal graphs. Hence, a typical line of attack for this problem is to determine minimum identifying codes of special graphs. In this work we study the problem of determining the cardinality of a minimum identifying code in block graphs (that are diamond-free chordal graphs). We present a linear-time algorithm for this problem, as a generalization of a linear-time algorithm proposed by Auger in 2010 for the case of trees. Thereby, we provide a subclass of chordal graphs for which the identifying code problem can be solved in linear time.
ISSN:1571-0653
1571-0653
DOI:10.1016/j.endm.2017.10.043