R-SOR: Ranked Social-based Routing Protocol in Opportunistic Mobile Social Networks
Copyright policy )R-SOR: Ranked Social-based Routing Protocol in Opportunistic Mobile Social Networks
Exploiting social information to improve routing performance is an increasing trend in Opportunistic Mobile Social Networks (OMSNs). Selecting the next message’s relay node based on the user’s social behavior is a critical factor in attaining a high delivery rate. So, to ascertain the most efficient selection of the next relay, the correlation between daily social activities and the social characteristics in the user profiles can be exploited. In this paper, we consider the impact of the social characteristics on mobile user activities during certain periods of the day and then rank these characteristics based on their relative importance in order to be included in the routing protocol. These processes consolidate the proposed Ranked Social-based Routing (R-SOR) protocol to provide an effective way for data dissemination in OMSN. We use the real data set INFOCOM06 to evaluate the proposed protocol. The experimental results show that the proposed protocol has higher routing efficiency than flooding-based protocols such as Epsoc and Epidemic, prediction-based protocols such as PRoPHET, and social-based protocols such as MSM and Bubble Rap.
- Al Jouf University Saudi Arabia
- Universiti Malaysia Terengganu Malaysia
FOS: Computer and information sciences, Mobile social network, Alternative medicine, Computer Networks and Communications, Structural engineering, Node (physics), Link-state routing protocol, Community-Based Routing, Zone Routing Protocol, Flooding (psychology), Quantum mechanics, Information and Communication Technologies for Development, Engineering, Pathology, Psychology, Content-Centric Networking for Information Delivery, Computer network, Routing (electronic design automation), Mobile computing, Mobile Ad Hoc Networks, Physics, Relay, Power (physics), Computer science, Routing protocol, FOS: Psychology, Delay-Tolerant Networking in Mobile Ad Hoc Networks, Computer Science, Physical Sciences, Protocol (science), Mobility Models, Psychotherapist, Medicine, Opportunistic Routing, Wireless Routing Protocol, Social Network Analysis, Information Systems
FOS: Computer and information sciences, Mobile social network, Alternative medicine, Computer Networks and Communications, Structural engineering, Node (physics), Link-state routing protocol, Community-Based Routing, Zone Routing Protocol, Flooding (psychology), Quantum mechanics, Information and Communication Technologies for Development, Engineering, Pathology, Psychology, Content-Centric Networking for Information Delivery, Computer network, Routing (electronic design automation), Mobile computing, Mobile Ad Hoc Networks, Physics, Relay, Power (physics), Computer science, Routing protocol, FOS: Psychology, Delay-Tolerant Networking in Mobile Ad Hoc Networks, Computer Science, Physical Sciences, Protocol (science), Mobility Models, Psychotherapist, Medicine, Opportunistic Routing, Wireless Routing Protocol, Social Network Analysis, Information Systems
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