EIGRP protocol Projects examples using omnet++

Enhanced Interior Gateway Routing Protocol (EIGRP) with OMNeT++, which features some really cool innovations are listed here. Keep in contact with us to improve your network performance. If you provide us with your parameter details, we’ll assist you. Set up a meeting with our team today for excellent results. In the following below, we presented some example projects for the Enhanced Interior Gateway Routing Protocol (EIGRP) using OMNeT++:

1. Basic EIGRP Protocol Simulation

• Description: Accomplish a simple simulation of the EIGRP protocol in OMNeT++. The project should prototype a network in which the routers use EIGRP to interchange routing information and achieve efficient routes depends on metrics like bandwidth, delay, dependability, and load.
• Objective: Analyze the basic operation of EIGRP, including the construction of the topology table, the use of DUAL (Diffusing Update Algorithm) for route computation, and the formation of routing tables.

2. Performance Analysis of EIGRP in Large Networks

• Description: Configure a project that concentrates on assessing EIGRP’s performance in large-scale networks. Use OMNeT++ to imitate a network with numerous routers and analyze how EIGRP manages large routing tables, frequent topology variations, and the influence on convergence time and network stability.
• Objective: Compute key metrics includes convergence speed, routing overhead, and scalability in large network environments.

3. EIGRP vs. OSPF: Comparative Study

• Description: Generate a project that compares the performance of EIGRP with OSPF (Open Shortest Path First) in the same network environment. Use OMNeT++ to model both protocols and evaluate their variation based on route computation, convergence time, bandwidth consumption, and entire efficiency.
• Objective: Offer insights into the trade-offs amongst using EIGRP (a distance-vector protocol) and OSPF (a link-state protocol) in enterprise networks.

4. EIGRP with Load Balancing Across Multiple Paths

• Description: Deploy a project that discovers EIGRP’s potential to achieve load balancing across multiple equal or unequal cost paths. Use OMNeT++ to imitate scenarios where traffic is allocation over multiple routes to enhance network performance and evade jamming.
• Objective: Assess the efficiency of EIGRP’s load balancing mechanisms in optimizing throughput and minimizing latency.

5. Security Enhancements for EIGRP

• Description: Develop a project that incorporates security features into EIGRP to guard from challenges like illegal route injection or tampering with routing updates. Use OMNeT++ to replicates the use of validation and encryption in EIGRP messages and evaluate their impact on routing performance.
• Objective: Analyze the trade-offs between enhanced security and routing efficiency in a network running EIGRP.

6. EIGRP Convergence in Multi-Homed Networks

• Description: Set up a project that test EIGRP’s convergence actions in multi-homed networks, where routers are linked to several ISPs or networks. Use OMNeT++ to imitate how EIGRP manages route variations and failovers in such environments.
• Objective: Compute EIGRP’s convergence time and network performance during failover situations and assess how it upholds network stability.

7. Energy-Efficient Routing with EIGRP in Wireless Networks

• Description: Execute a project that alters EIGRP to enhance energy utilization in wireless networks. Use OMNeT++ to recreates energy-aware routing techniques inside the EIGRP framework like reducing the number of transfers or balancing energy consumption across nodes.
• Objective: Estimate the effects of these energy optimizations on network lifetime and performance.

8. EIGRP in IPv6 Networks (EIGRPv6)

• Description: Develop a project that discovers the execution of EIGRPv6 in an IPv6 network environment. Use OMNeT++ to imitate how EIGRPv6 manages IPv6 addressing, route summarization, and neighbor discovery compared to its IPv4 corresponding item.
• Objective: Compare EIGRPv6’s performance with that of EIGRP for IPv4, concentrates on the threats and advantages of routing in IPv6 networks.

9. Fault Tolerance and Redundancy in EIGRP Networks

• Description: Build a project that prototypes fault tolerance and redundancy functionalities in an EIGRP network. Use OMNeT++ to mimic situation in which network elements fail and evaluate how EIGRP redirects traffic and upholds network connectivity.
• Objective: Assess EIGRP’s capability to offer dependable communication in the face of hardware or link failures.

10. EIGRP and QoS (Quality of Service) Routing

• Description: Execute a project that integrates QoS metrics within EIGRP routing decisions. Use OMNeT++ to mimic how EIGRP can prioritize traffic with certain QoS demands includes low latency or high consistency, and how this impacts overall network performance.
• Objective: Assess how well EIGRP helps QoS-sensitive applications in a network environment.

In this report, we will help you to set up the simulation network and how to implement and evaluate the example projects of Enhanced Interior Gateway Routing Protocol (EIGRP) in the OMNeT++ environment. If needed, we can help you with another examples of other simulation networks.