Ali Gozali

Work place: Faculty of Electrical, Computer and IT Engineering, Islamic Azad University, Qazvin Branch, Qazvin, Iran

E-mail: A.gozali@qiau.ac.ir

Website:

Research Interests: Computational Science and Engineering, Computational Engineering, Software Engineering, Computer systems and computational processes, Computational Geometry

Biography

Ali Gozali is a graduated master student of Computer Engineering at Faculty of Electrical and Computer Engineering in Qazvin Islamic Azad University. His research interests include network applications, computational geometry and software engineering.

Author Articles
SMAODV: A Novel Smart Protocol for Routing in Ad-hoc Wireless Networks Using the PageRank Algorithm

By Ali Gozali Keivan Borna

DOI: https://doi.org/10.5815/ijcnis.2015.09.06, Pub. Date: 8 Aug. 2015

The Ad-Hoc networks are the kind of wireless networks that their configuration is done automatically and also the nodes are moving with a certain speed. For this reason the created paths (routes) are often unstable and these paths are usually broken by switching nodes. In this respect, choosing the right path and routing mechanism become more diverse in these networks.
In this research by applying some changes to the AODV routing protocols, two new protocols are presented: The first protocol is SAODV, which is a protocol for multi-path which finds the minimum length path between source and destination nodes and then sequentially sends the packets in these paths. The second protocol is SMAODV, which is a verified version of the first one but it finds multi-paths with minimum length for sending the control packets by the use of webpage rank algorithm and a smart mechanism for determining the amount of sending packets. This would cause the energy at any point in the network nodes with minimum variance and increase the network lifetime. The results of simulations in the NS-2 network simulator also verify that our proposed methods have better efficiency than the basic AODV protocol, and improve the network performance and decrease the end-to-end delay of receipt packets.

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