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dc.contributor.authorVieira, Pedro Jorge Alves Barbosapor
dc.contributor.authorCosta, Antóniopor
dc.contributor.authorMacedo, Joaquimpor
dc.description.abstractOpportunistic networking differs from more conventional architectures by the lack of existing network infrastructure, which can cause intermittent connectivity or increased communication delay between nodes. From a message routing perspective,solving these problems require a different set of techniques thanthose used in more traditional network schemes. Forwarding algorithms in these scenarios aim to improve performance metrics such as message delivery ratio and message delay time, while trying to keep the number of message copies small. A common approach used for testing the performance of opportunistic protocols relies on existing opportunistic contact traces. These datasets are widely available on the Internet, and provide a convenient way of simulating realistic usage scenarios. As such, studying the contact patterns between nodes can lead to useful observations to take into account on future experiments. This paper presents the results of a study on four different datasets. First, we describe the main characteristics of each trace. Then, we propose a graphical representation of the contact behavior for each pair of nodes. The next step was to perform an analysis in terms of the distribution of connectivity among nodes, having found that the contacts follow a roughly lognormal distribution and noting that a small group of nodes is usually much more popular than the rest. We have also made a temporal analysis over the duration of each collection experiment. It was noticeable that individual nodes have very similar contact patterns over time, as well as revealing some cyclic variation over time (namely over weekends). Using dataset derived time-varying graph models, a significant performance decrease was achieved with simple remotion of few critical nodespor
dc.description.sponsorshipFEDER through the Competitiveness Factors Operational Programme - COMPETE FCT - Foundation for Science and Technology under the Project: FCOMP-01-FEDER-0124-022674por
dc.publisherIGI Globalpor
dc.subjectConnectivity Distributionpor
dc.subjectForwarding Algorithmspor
dc.subjectNetwork Infrastructurepor
dc.subjectOpportunistic Networkingpor
dc.titleA comparison of opportunistic connection datasetspor
sdum.event.title3rd International Conference on Emerging Intelligent Data and Web Technologies-
dc.subject.wosScience & Technologypor
sdum.journalInternational Journal of Distributed Systems and Technologiespor
Appears in Collections:CAlg - Artigos em livros de atas/Papers in proceedings

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