Layer 3 Routed Protocol Projects Using Omnet++

Layer 3 routed protocols using OMNeT++ tool project examples for scholars where are shared in this page. Performance Comparison of Layer 3 Routed Protocols are well carried out by omnet-manual.com, as we have more than 18+ years of experience  in this field we serve the best :

1. Performance Comparison of Layer 3 Routed Protocols (OSPF, EIGRP, RIP):
   • To execute and mimic various Layer 3 routed protocols like OSPF (Open Shortest Path First), EIGRP (Enhanced Interior Gateway Routing Protocol), and RIP (Routing Information Protocol) in the tool OMNeT++. We can compare its performance such as convergence time, routing overhead, and network efficiency in several topologies and traffic scenarios.
2. Scalability Analysis of OSPF in Large Networks:
   • Mimic the OSPF in a large-scale network to learn its scalability. We can concentrating on how OSPF manages an increasing number of nodes, route advertisements, and topology changes and to estimate the effect on network performance, containing the routing table size, update frequency, and overall latency.
3. EIGRP with QoS Support:
   • We execute the EIGRP with Quality of Service (QoS) that support in OMNeT++. To emulate a network with mixed traffic types, like real-time video and regular data traffic. Now, we can examine how EIGRP handles to maintain QoS guarantees whereas routing traffic effectively.
4. RIP in a Mixed IPv4/IPv6 Environment:
   • Here, we can execute the RIP (or RIPng for IPv6) in a mixed IPv4/IPv6 network scenario. We learn how RIP manages dual-stack environments, directing on route propagation, compatibility issues, and performance variances among IPv4 and IPv6 routing.
5. Security Analysis of Layer 3 Routing Protocols:
   • We analyse the potential security vulnerabilities in Layer 3 routing protocols such as OSPF, EIGRP, or RIP. To execute the security mechanisms like authentication or encryption for routing updates and mimic the network to assess the efficiency of its security enhancements in avoiding attacks such as route hijacking or spoofing.
6. OSPF with Traffic Engineering:
   • We execute the OSPF with traffic engineering extensions (OSPF-TE) in OMNeT++. To emulate how traffic engineering can enhance the resource utilization and develop the network performance by dynamically modifying routes based on the present traffic loads and obtainable bandwidth.
7. Dynamic Routing with EIGRP in Mobile Ad-Hoc Networks (MANETs):
   • Mimic the protocol such as EIGRP in a MANET environment to learn its adaptability to frequent topology changes and we compute the protocol’s performance such as route convergence, stability, and communication reliability in a highly dynamic network as well as mobile nodes.
8. Hierarchical OSPF in Multi-Area Networks:
   • We execute the hierarchical design with OSPF in a multi-area network scenario. To mimic the aids of dividing the network into areas, and we concentrating on reduced routing overhead, faster convergence times, and enhanced network scalability.
9. RIP Performance in Low-Bandwidth Networks:
   • Mimic the RIP in a low-bandwidth network situation to learn how the protocol executes under constrained conditions. We can investigate the metrics like routing update frequency, bandwidth utilization, and effect on data traffic performance.
10. Layer 3 Routing Protocols in a Hybrid WAN:
    • We execute a hybrid Wide Area Network (WAN) using the Layer 3 routing protocols such as OSPF, EIGRP, and BGP (Border Gateway Protocol) and mimic the network to assess how its protocols interact, aiming on route redistribution, policy-based routing, and overall network performance in a hybrid environment.

Hence, we had provided some effective project samples which are used to implement and analyse the Layer 3 routed protocol using OMNeT++. Further informations will be offered in another manual based on your needs.