@Article{Johari2015,
author="Johari, Rahul
and Gupta, Neelima
and Aneja, Sandhya",
title="CONCOR: context-aware community-oriented routing for intermittently connected network",
journal="EURASIP Journal on Wireless Communications and Networking",
year="2015",
month="May",
day="26",
volume="2015",
number="1",
pages="148",
abstract="Delay-Tolerant Networks (DTNs) are characterized by time-varying and partially connected network topology. In such networks, mobility of node may be by virtue of its carrier. Social beings such as humans may act as a carrier of mobile nodes, and therefore mobility pattern of node follows a social-based movement model. Due to intermittent connectivity, end-to-end path between source and destination is rare and therefore message delivery is a challenge in such networks. In this paper, we present a new routing approach, context-aware community-oriented routing (CONCOR) that exploits the community and the context awareness of nodes, for efficient message delivery. Nodes with a common point of interest form a dynamic community. We have identified a set of node's attribute (context) and formulated a utility function to determine its capability to deliver a message. CONCOR is a multihop routing approach exploiting the nodes as message relays (store-carry-forward). Through simulation, we validated the effectiveness of node's attributes in estimation of message delivery probability. The simulations were done for our approach using the social movement-based data set on Opportunistic Network Environment (ONE) simulator. We compared our approach with dynamic social grouping (DSG)-based routing and context-aware routing(CAR) on three metrics viz. message delivery ratio, message traffic ratio and average message delay. We found that the results of our approach outperforms the DSG and CAR on all the three metrics.",
issn="1687-1499",
doi="10.1186/s13638-015-0357-7",
url="https://doi.org/10.1186/s13638-015-0357-7"
}