Polynomial Silent Self-Stabilizing p-Star Decomposition†

Author:

Haddad Mohammed1,Johnen Colette2,Köhler Sven3

Affiliation:

1. Université Claude Bernard Lyon 1, Villeurbanne, France

2. University of Bordeaux, Talence Cedex, France

3. University of Freiburg, Freiburg im Breisgau, Germany

Abstract

Abstract We present a silent self-stabilizing distributed algorithm computing a maximal $\ p$-star decomposition of the underlying communication network. Under the unfair distributed scheduler, the most general scheduler model, the algorithm converges in at most $12\Delta m + \mathcal{O}(m+n)$ moves, where $m$ is the number of edges, $n$ is the number of nodes and $\Delta $ is the maximum node degree. Regarding the time complexity, we obtain the following results: our algorithm outperforms the previously known best algorithm by a factor of $\Delta $ with respect to the move complexity. While the round complexity for the previous algorithm was unknown, we show a $5\big \lfloor \frac{n}{p+1} \big \rfloor +5$ bound for our algorithm.

Funder

ANR project DESCARTES

ANR project ESTATE

Publisher

Oxford University Press (OUP)

Subject

General Computer Science

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2. Self-Stabilization

3. Decomposition of complete graphs into stars;Cain;Bull. Austral. Math. Soc.,1974

4. Balanced star decompositions of regular multigraphs and lambda-fold complete bipartite graphs;Lee;Discrete Math.,2005

5. Linear star decomposition of lobster;Merly;Int. J. Contemp. Math. Sci.,2012

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