Algebraic Methods for Computing the Reliability of Networks / Algebraische Methoden zur Berechnung der Zuverlässigkeit von Netzwerken

Simon, Frank

11 December 2012

In the first part of this thesis we generalise the well-known K-terminal reliability R(G,K) to different kinds of terminal vertices. By means of lattice theoretic tools, we propose a divide and conquer approach to compute this new reliability measure efficiently. The first part concludes with an improved path decomposition algorithm that computes R(G,K) much more memory and time efficient compared to current state-of-the-art algorithms. In the second part we discuss the counting of connected set partitions of a graph G and its application to network reliability problems. Again we utilise the lattice theoretic approach to carry out the counting efficiently. Finally, we investigate the domination reliability DR(G) of a graph G as an interesting network reliability measure.

K-Zuverlässigkeit

Mengenpartitionen

Inzidenzalgebra

K-Terminal reliability

Set partitions

Incidence algebras

ddc:510

rvk:SK 890

rvk:SK 970

Algebraic Methods for Computing the Reliability of Networks

Simon, Frank

01 November 2012

In the first part of this thesis we generalise the well-known K-terminal reliability R(G,K) to different kinds of terminal vertices. By means of lattice theoretic tools, we propose a divide and conquer approach to compute this new reliability measure efficiently. The first part concludes with an improved path decomposition algorithm that computes R(G,K) much more memory and time efficient compared to current state-of-the-art algorithms. In the second part we discuss the counting of connected set partitions of a graph G and its application to network reliability problems. Again we utilise the lattice theoretic approach to carry out the counting efficiently. Finally, we investigate the domination reliability DR(G) of a graph G as an interesting network reliability measure.

info:eu-repo/classification/ddc/510

ddc:510