DTN-Meteo
Metadata only
Datum
2012-11Typ
- Report
ETH Bibliographie
yes
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Abstract
Opportunistic or Delay Tolerant Networks (DTNs) may be used to enable communication in case of failure or lack of infrastructure (disaster, censorship, remote areas) and to complement existing wireless technologies (cellular, WiFi). Wireless peers communicate when in contact, forming an impromptu network, whose connectivity graph is highly dynamic and only partly connected. In this harsh environment, communication algorithms are mostly local search heuristics, choosing a solution among the locally available ones. Furthermore, they are routinely evaluated through simulations only, as they are hard to model analytically. Even when more insight is sought from models, these usually assume homogeneous node meeting rates, thereby ignoring the attested heterogeneity and non-trivial structure of human mobility. We propose DTN-Meteo: a new unified analytical model, that maps an important class of DTN optimization problems over heterogeneous mobility (contact) models, into a Markov chain traversal over the relevant solution space. (Heterogeneous) meeting probabilities between different pairs of nodes dictate the chain’s transition probabilities and determine neighboring solutions. Local optimization algorithms can accept/reject candidate transition (deterministically or randomly), thus “modulating” the above transition probabilities. We apply our model to two example problems: routing and content placement. We predict the performance of state-of-the-art algorithms (SimBet, BubbleRap) in various real and synthetic mobility scenarios and show that surprising precision can be achieved against simulations, despite the complexity of the problems and diversity of settings. To our best knowledge, this is the first analytical work that can accurately predict performance for utility-based algorithms and heterogeneous node contact rates. Mehr anzeigen
Publikationsstatus
publishedZeitschrift / Serie
TIK ReportBand
Verlag
ETH Zürich, Institut für technische Informatik und KommunikationOrganisationseinheit
03234 - Plattner, Bernhard (emeritus) / Plattner, Bernhard (emeritus)
ETH Bibliographie
yes
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