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Aidan Walton's Publications

Path Formation in Human Contact Networks
Zitatschlüssel SH-PFHCN-11
Autor Sastry, Nishanth and Hui, Pan
Buchtitel Handbook of Optimization in Complex Networks, Part 3
Seiten 349–385
Jahr 2012
ISBN 978-1-4614-0856-7
Online ISBN 978-1-4614-0857-4
ISSN 1931-6828
DOI http://dx.doi.org/10.1007/978-1-4614-0857-4_12
Adresse Berlin / Heidelberg, Germany
Jahrgang 58
Notiz Chapter 12
Verlag Springer
Serie Springer Optimization and Its Applications
Zusammenfassung The Pocket Switched Network (PSN) is a radical proposal to take advantage of short-range connectivity afforded by human face-to-face contacts, and create longer paths by having intermediate nodes ferry data on behalf of the sender. The Pocket Switched Network creates paths over time using transient social con- tacts. This chapter explores the achievable connectivity properties of this dynamically changing mileu, and gives a community-based heuristic to find efficient routes. We first employ empirical traces to examine the effect of the human contact process on data delivery. Contacts between a few node pairs are found to occur too frequently, leading to inadequate mixing of data, while the majority of contacts occur rarely, but are essential for global connectivity. We then examine all successful paths found by flooding and show that though delivery times vary widely, randomly sampling a small number of paths between each source and destination is sufficient to yield a delivery time distribution close to that of flooding over all paths. Thus, despite the apparent fragility implied by the reliance on rare edges, the rate at which the network can deliver data is remarkably robust to path failures. We then give a natural heuristic that finds routes by exploiting the latent social structure. Previous methods relied on building and updating routing tables to cope with dynamic network conditions. This has been shown to be cost ineffective due to the partial capture of transient network behavior. A more promising approach would be to capture the intrinsic characteristics of such networks and utilize them for routing decsions. We design and evaluate BUBBLE, a novel social-based forwarding algorithm, that utilizes the centrality and community metrics to enhance delivery performance. We empirically show that BUBBLE can efficiently identify good paths using several real mobility datasets.
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