APDV: making distance vector routing scale using adaptive publish-subscribe mechanisms
Proceedings of the 16th ACM international conference on Modeling, analysis & simulation of wireless and mobile systems
S-CAVE: effective SSD caching to improve virtual machine storage performance
PACT '13 Proceedings of the 22nd international conference on Parallel architectures and compilation techniques
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We present a new approach for opportunistic information dissemination. In contrast to prior approaches to disruption-tolerant networking that focus on physical aspects of connectivity, our approach is based on exploiting the social plane to improve the efficiency with which the physical network infrastructure is used. We integrate the use of social-group information with an approach to routing that eliminates the use of destination-based routing tables. We show that our approach provides correct unicast routing, and compare its performance against that of epidemic routing and an disruption-tolerant, address-based routing scheme. The results from our simulation experiments illustrate that eliminating flooding in connected components of a network and using the social plane to guide information dissemination render substantial performance improvements over traditional methods for routing in disruption-tolerant networks.