Concentration of the Kirchhoff index for Erdős–Rényi graphs
Copyright policy )Concentration of the Kirchhoff index for Erdős–Rényi graphs
Given an undirected graph, the resistance distance between two nodes is the resistance one would measure between these two nodes in an electrical network if edges were resistors. Summing these distances over all pairs of nodes yields the so-called Kirchhoff index of the graph, which measures its overall connectivity. In this work, we consider Erdos-Renyi random graphs. Since the graphs are random, their Kirchhoff indices are random variables. We give formulas for the expected value of the Kirchhoff index and show it concentrates around its expectation. We achieve this by studying the trace of the pseudoinverse of the Laplacian of Erdos-Renyi graphs. For synchronization (a class of estimation problems on graphs) our results imply that acquiring pairwise measurements uniformly at random is a good strategy, even if only a vanishing proportion of the measurements can be acquired.
- College of New Jersey United States
- Université Catholique de Louvain Belgium
- Princeton University United States
- École Normale Supérieure France
Erdős-Rényi random graph, FOS: Computer and information sciences, Connectivity, Graphs and linear algebra (matrices, eigenvalues, etc.), Computer Science - Information Theory, Information Theory (cs.IT), Random graphs (graph-theoretic aspects), sensor network localization, random matrices, Cramér-Rao bounds, Applications of graph theory to circuits and networks, resistance distance, pseudoinverse of graph Laplacian, Kirchhoff index, estimation on graphs, synchronization
Erdős-Rényi random graph, FOS: Computer and information sciences, Connectivity, Graphs and linear algebra (matrices, eigenvalues, etc.), Computer Science - Information Theory, Information Theory (cs.IT), Random graphs (graph-theoretic aspects), sensor network localization, random matrices, Cramér-Rao bounds, Applications of graph theory to circuits and networks, resistance distance, pseudoinverse of graph Laplacian, Kirchhoff index, estimation on graphs, synchronization
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