On Connectivity Thresholds in the Intersection of Random Key Graphs on Random Geometric Graphs

On Connectivity Thresholds in the Intersection of Random Key Graphs on Random Geometric Graphs

In a random key graph (RKG) of $n$ nodes each node is randomly assigned a key ring of $K_n$ cryptographic keys from a pool of $P_n$ keys. Two nodes can communicate directly if they have at least one common key in their key rings. We assume that the $n$ nodes are distributed uniformly in $[0,1]^2.$ I...

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Hauptverfasser: Krishnan, B. Santhana, Ganesh, Ayalvadi, Manjunath, D
Format: Artikel
Sprache:eng
Schlagworte:
Computer Science - Information Theory
Mathematics - Combinatorics
Mathematics - Information Theory
Mathematics - Probability
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Zusammenfassung:In a random key graph (RKG) of $n$ nodes each node is randomly assigned a key ring of $K_n$ cryptographic keys from a pool of $P_n$ keys. Two nodes can communicate directly if they have at least one common key in their key rings. We assume that the $n$ nodes are distributed uniformly in $[0,1]^2.$ In addition to the common key requirement, we require two nodes to also be within $r_n$ of each other to be able to have a direct edge. Thus we have a random graph in which the RKG is superposed on the familiar random geometric graph (RGG). For such a random graph, we obtain tight bounds on the relation between $K_n,$ $P_n$ and $r_n$ for the graph to be asymptotically almost surely connected.
DOI:10.48550/arxiv.1301.6422