Traffic Congestion Minimization and Reliable Data Transmission in Enhanced Fast Forwarding AOMDV (FF-AOMDV) in Mesh-based Multipath Architecture in MANET

Authors

  • M. Kamarunisha Research Scholar, Department of Computer Science, Periyar University, Salem- 636007, Tamilnadu, India
  • S. Vimalanand Research Supervisor, Principal, RD National College of Arts and Science, Erode- 637210, Tamilnadu, India.

Keywords:

MANET, multi-path routing, Optimization, FF-AOMDV, traffic congestion, data transmission

Abstract

Group-oriented services have become a primary focus for MANETs at present. To cater to these services, multipath routing has been adopted. Consequently, there's a growing demand to develop stable and dependable multipath routing protocols for MANETs to enhance packet distribution rates, reduce delays, minimize routing overhead, alleviate traffic congestion, and ensure reliable data transmission. The introduction of multipath routing helps balance data transmission across multiple paths while ensuring energy-efficient and dependable routing. Within MANETs, packet loss commonly results from obstacles, and this challenge can be effectively managed through congestion control mechanisms. The present study presents an approach for multicast routing based on mesh topology, with the goal of establishing dependable multicast pathways connecting the source to the destination. Multicast machine formation is achieved using the route request and route response packets and the multicast routing data stored at each node. To enhance the exploration of multipath routing, alleviate traffic congestion, and boost data transmission performance, the paper recommends the adoption of an FF-AOMDV routing method, which is deployed on MGWO. The proposed method not only improves end-to-end connectivity but also lowers errors. It employs an energy-efficient neighbour node selection method to make multiple paths from the source to the receiver, ultimately identifying a stable path with effective load balancing. The algorithm is simulated and comparison of performance with existing protocols, such as: AOMDV, EE-AOMDV, and MGWO-DSR, across various metrics including PDR, routing overhead, delay, energy utilization, network lifetime, and capacity.

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Published

24.03.2024

How to Cite

Kamarunisha, M. ., & Vimalanand, S. . (2024). Traffic Congestion Minimization and Reliable Data Transmission in Enhanced Fast Forwarding AOMDV (FF-AOMDV) in Mesh-based Multipath Architecture in MANET . International Journal of Intelligent Systems and Applications in Engineering, 12(20s), 363–371. Retrieved from https://ijisae.org/index.php/IJISAE/article/view/5148

Issue

Vol. 12 No. 20s (2024)

Section

Research Article

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