Aomdv Protocol Examples Using Omnet++

Ad hoc On-Demand Multipath Distance Vector (AOMDV) protocol using OMNeT++  tool we have shared some of the examples of projects that highlight their processes. Make sure to check out omnet-manual.com for great services. We’re here to assist you with your simulation performance!

1. Performance Comparison of AOMDV with AODV:
   • Use OMNeT++ to implement both AOMDV and AODV (Ad hoc On-Demand Distance Vector) protocols and compare their performance in based on packet delivery ratio, end-to-end delay, and routing overhead. Evaluate how the multipath ability of AOMDV impacts network consistency and flexibility compared to AODV.
2. Energy-Efficient AOMDV in Wireless Sensor Networks (WSNs):
   • Apply an energy-efficient version of AOMDV in a WSN environment. Optimize the selection of multipath routes and reducing unnecessary retransfers to concentrates on decreasing energy utilization. Assess the effect on network lifetime and entire performance.
3. AOMDV in High Mobility Scenarios:
   • Recreate AOMDV in a highly dynamic mobile ad-hoc network (MANET) with high node mobility. Evaluate how the protocol manages often topology varies and estimates its efficiency in upholding consistent communication routes. Compare its performance with other routing protocols in similar conditions.
4. Security Enhancements for AOMDV:
   • Examine potential security challenges to AOMDV like routing attacks (like black hole or wormhole attacks). Execute security features inside AOMDV, involves secure route discovery or validation, and evaluate their effectiveness in guarding the network.
5. AOMDV with QoS (Quality of Service) Support:
   • Execute QoS-aware routing in AOMDV to prioritize particular kinds of traffic like real-time video or voice communication. Mimic scenarios where various types of traffic co-occur, and analyze how the protocol make certain QoS assurances while upholding efficient routing.
6. AOMDV in VANETs (Vehicular Ad-Hoc Networks):
   • Use OMNeT++ to apply AOMDV in a VANET scenario. Learn how the multipath routing potential of AOMDV works in urban and highway environments, especially based on the upholding connectivity and minimizing packet loss in high-mobility vehicular networks.
7. Load Balancing with AOMDV:
   • Accomplish load-balancing methods in AOMDV to allocate network traffic more evenly over numerous existed paths. Simulate various traffic patterns and estimate how load balancing impacts network performance as well as throughput, latency, and node energy utilization.
8. AOMDV in Disaster Recovery Networks:
   • Use AOMDV in a disaster recovery environment where network topology is changeable and quickly varying. Compute how the protocol’s multipath routing ability supports in maintaining communication and making certain network consistency in such threat environments.
9. Scalability Analysis of AOMDV:
   • Imitate a large-scale MANET using AOMDV to discover its scalability. Analyze how the protocol works as the count of nodes and traffic volume upsurges. Measure the influence on routing overhead, packet delivery ratio, and network jamming.
10. AOMDV with Enhanced Path Selection:
    • Develop an optimized version of AOMDV with enhanced path selection criteria like considering link stability, energy levels, or node consistency. Replicate the network and relate the enactment of the enhanced AOMDV with the standard version in different network conditions.

We successfully established several example projects that relates to the AOMDV protocol which is accomplished by using the OMNeT++ tool. For further execution process of these projects, we will deliver it through another procedure.