In a resource compelled system such as Delay Tolerant Frameworks (DTN), effective utilization of assets such as vitality is vital for optimum system performance. However, due to hubs mobility, frequency of experiences and, message transmission, most of node’s vitality in this type of system is continuously depleted. A node’s vitality in DTN plays an vital role in the success of conveying messages. The lower the vitality a hub has, the lower its possibility to convey messages across the network. Thus, a proper energy-effective steering convention should be selected for message transmission for DTN applications. This issue leads us to research on the vitality utilization of hubs in DTN. We reproduced and, compared several existing steering conventions and, assessed them in terms of normal remaining vitality and, number of dead nodes. Our results show that critical Attributes of these steering conventions contribute to either consuming low or high vitality in conveying messages under certain system settings.

Delay Tolerant Network, Vitality Effective Steering Protocols

[1] Honey Agrawal; Prashant Johri; Arun Kumar, “Emerging trends in energy efficient routing protocols”, Computing, Communication & Automation (ICCCA), 2015 International Conference on, Year: 2015, Pages: 523 – 528.
[2] D. Baghyalakshmi; Jemimah Ebenezer; S. A. V. Satyamurty, “Low latency and energy efficient routing protocols for wireless sensor networks”, Wireless Communication and Sensor Computing, 2010. ICWCSC 2010. International Conference on, Year: 2010, Pages: 1 – 6.
[3] Nikolaos A. Pantazis; Stefanos A. Nikolidakis; Dimitrios D. Vergados, “Energy-Efficient Routing Protocols in Wireless Sensor Networks: A Survey”, IEEE Communications Surveys & Tutorials, Year: 2013, Volume: 15, Issue: 2, Pages: 551 – 591.
[4] Jinhua Zhu; Xin Wang, “Model and Protocol for Energy-Efficient Routing over Mobile Ad Hoc Networks”, IEEE Transactions on Mobile Computing, Year: 2011, Volume: 10, Issue: 11, Pages: 1546 – 1557.
[5] Bhabani Sankar Gouda; Ashish Kumar Dass; K. Lakshmi Narayana, “A comprehensive performance analysis of energy efficient routing protocols in different traffic based mobile ad-hoc networks”, Automation, Computing, Communication, Control and Compressed Sensing (iMac4s), 2013 International Multi-Conference on, Year: 2013,Pages: 306 – 312.
[6] Lijuan Cao; Teresa Dahlberg; Yu Wang, “Performance Evaluation of Energy Efficient Ad Hoc Routing Protocols”, 2007 IEEE International Performance, Computing, and Communications Conference, Year: 2007, Pages: 306 – 313.
[7] Jinhua Zhu; Xin Wang, “PEER: a progressive energy efficient routing protocol for wireless ad hoc networks”, Proceedings IEEE 24th Annual Joint Conference of the IEEE Computer and Communications Societies, Year: 2005, Volume: 3, Pages: 1887 – 1896.
[8] Dheeraj Kumar Anand; Shiva Prakash, “A Short Survey of Energy-Efficient Routing Protocols for Mobile Ad-Hoc Networks”, Advances in Recent Technologies in Communication and Computing (ARTCom), 2010 International Conference on, Year: 2010, Pages: 327 – 329.
[9] Madan Mohan Agarwal; Mahesh Chandra Govil; Madhavi Sinha, “Investigation of energy efficient routing parameters & protocols”, 2015 Third International Conference on Image Information Processing (ICIIP), Year: 2015, Pages: 168 – 173.
[10] Albert F. Harris; Michele Zorzi, “On the Design of Energy-efficient Routing Protocols in Underwater Networks”, 2007 4th Annual IEEE Communications Society Conference on Sensor, Mesh and Ad Hoc, Communications and Networks, Year: 2007, Pages: 80 – 90.