Multi-priority and trusted multi-path selection algorithm for ad-hoc network

Multi-priority and trusted multi-path selection algorithm for ad-hoc network. Afsana, F., Zenia, N. Z., Islam, N., Sunny, F. A., Kaiser, M. S., & Mamun, S. A. In 2014 International Conference on Electrical Engineering and Information & Communication Technology, pages 1–6, April, 2014.
doi abstract bibtex

This paper presents a multi-priority and multi-path selection algorithm for heterogeneous traffic for wireless ad-hoc networks. The main objectives are achieving higher throughput, better resource utilization through load balancing and relinquish network congestion. The proposed algorithm has considered signal-to-interference plus noise ratio (SINR), available link bandwidth, link delay (transmission delay and queuing delay), trust value of a node and traffic class (such as real time and non-real time traffic) to select optimal path. The performance of the proposed Multi-Priority and Trusted Multi-Path Selection (MTMS) algorithm has been evaluated by OPNET Modeler 14.5 simulator. It is found that in terms of average throughput (bit/second) and link delay proposed MTMS algorithm outperforms ad-hoc on-demand distant vector (AODV) and dynamic source routing (DSR).

@inproceedings{afsana_multi-priority_2014,
	title = {Multi-priority and trusted multi-path selection algorithm for ad-hoc network},
	doi = {10.1109/ICEEICT.2014.6919144},
	abstract = {This paper presents a multi-priority and multi-path selection algorithm for heterogeneous traffic for wireless ad-hoc networks. The main objectives are achieving higher throughput, better resource utilization through load balancing and relinquish network congestion. The proposed algorithm has considered signal-to-interference plus noise ratio (SINR), available link bandwidth, link delay (transmission delay and queuing delay), trust value of a node and traffic class (such as real time and non-real time traffic) to select optimal path. The performance of the proposed Multi-Priority and Trusted Multi-Path Selection (MTMS) algorithm has been evaluated by OPNET Modeler 14.5 simulator. It is found that in terms of average throughput (bit/second) and link delay proposed MTMS algorithm outperforms ad-hoc on-demand distant vector (AODV) and dynamic source routing (DSR).},
	booktitle = {2014 {International} {Conference} on {Electrical} {Engineering} and {Information} \& {Communication} {Technology}},
	author = {Afsana, Fariha and Zenia, Nusrat Z. and Islam, Nazia and Sunny, Farhana A. and Kaiser, M. S. and Mamun, S. A.},
	month = apr,
	year = {2014},
	keywords = {Ad hoc networks, Bandwidth, Delays, Interference, Load modeling, Real-time systems, Throughput, Wireless ad-hoc network, load balancing, outage probability, traffic class, trust},
	pages = {1--6},
}

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