A Socially-Based Routing Protocol for Delay Tolerant Networks

Networks in which nodes are intermittently connected, and have limited storage space and power, are termed Delay Tolerant Networks (DTN). To overcome these conditions, DTN routing protocols require nodes to store data packets for long periods of time until they contact with each other. In addition, they spread multiple copies of the same packet in the network to increase the probability of one of them reaching the destination. Long-term storage and multiple transmissions require large buffer space and non-restricted power availability which is hard to exist in DTN. In this paper, we study the routing problem in DTN with limited resources. We formulate a mathematical model for optimal routing, assuming the knowledge of present and future nodes contact and buffer space. After that, we analyze the previously developed heuristic protocols, and we propose a new protocol based on social relations between the nodes to avoid redundant copying of packets. Simulation results show that the proposed protocol significantly reduces energy consumption and provides better delivery ratio compared to other protocols.

[1]  Waylon Brunette,et al.  Data MULEs: modeling a three-tier architecture for sparse sensor networks , 2003, Proceedings of the First IEEE International Workshop on Sensor Network Protocols and Applications, 2003..

[2]  Zygmunt J. Haas,et al.  The shared wireless infostation model: a new ad hoc networking paradigm (or where there is a whale, there is a way) , 2003, MobiHoc '03.

[3]  Alex Pentland,et al.  DakNet: rethinking connectivity in developing nations , 2004, Computer.

[4]  Jörg Ott,et al.  Drive-thru Internet: IEEE 802.11b for "automobile" users , 2004, IEEE INFOCOM 2004.

[5]  Anders Lindgren,et al.  Probabilistic Routing in Intermittently Connected Networks , 2004, SAPIR.

[6]  Zhensheng Zhang,et al.  Routing in intermittently connected mobile ad hoc networks and delay tolerant networks: overview and challenges , 2006, IEEE Communications Surveys & Tutorials.

[7]  Christophe Diot,et al.  Impact of Human Mobility on Opportunistic Forwarding Algorithms , 2007, IEEE Transactions on Mobile Computing.

[8]  Vinny Cahill,et al.  Sensor Network with Delay Tolerance (SeNDT) , 2007, 2007 16th International Conference on Computer Communications and Networks.

[9]  K. Psounis,et al.  Efficient Routing in Intermittently Connected Mobile Networks: The Single-Copy Case , 2008, IEEE/ACM Transactions on Networking.

[10]  T. Spyropoulos,et al.  Efficient Routing in Intermittently Connected Mobile Networks: The Multiple-Copy Case , 2008, IEEE/ACM Transactions on Networking.

[11]  Amin Vahdat,et al.  Epidemic Routing for Partially-Connected Ad Hoc Networks , 2009 .

[12]  Sagar Naik,et al.  An eco-friendly routing protocol for Delay Tolerant Networks , 2010, 2010 IEEE 6th International Conference on Wireless and Mobile Computing, Networking and Communications.

[13]  Amiya Nayak,et al.  Choosing the objective of optimal routing protocols in Delay Tolerant networks , 2010, 2010 International Computer Engineering Conference (ICENCO).