To simulate Dijkstra’s Link-State Routing using OPNET. We offer the simulation steps for replicating this project in OPNET, contact phdprime.com for novel topics and simulation steps:
Steps to Simulate Dijkstra’s Link-State Routing Projects in OPNET
- Set Up the OPNET Project:
- Launch OPNET Modeler and initiate a new project by denoting a single project and situation name.
- For the simulation, select a proper network scale like a small enterprise or campus network, since Link-State Routing is well-matched for medium to large networks.
- Build the Network Topology:
- Locate the nodes, which will perform like routers, switches, and end-hosts in the network design workspace. OPNET offers a device’s libraries that contain routers along with configurable routing protocols.
- Organize these devices making a network topology, for shortest path calculation in which every node will utilize the Dijkstra’s algorithm.
- Configure Routing Protocols:
- Choose every single router node for launch the node’s attributes, and traverse to the IP routing settings.
- Configure every router utilizing OSPF (Open Shortest Path First), since OSPF is depends on the Dijkstra’s Link-State Algorithm, for Link-State Routing.
- OSPF settings can be discovered within the routing protocols in the IP layer set up. In OPNET, this protocol is broadly assisted and for several link-state behaviors, it is configurable.
- Define Network Traffic:
- In the network, append traffic sources and destinations. Make realistic traffic patterns utilizing OPNET’s application definitions such as FTP, HTTP, and VoIP.
- On the other hand, utilize custom traffic flows among nodes, which indicating metrics like traffic rate and packet size that will be routed according to the shortest path calculated using OSPF.
- Customize Link Parameters:
- Indicate link capacities, delays, and failure situation, for a more in depth replication.
- It permits to monitor how Dijkstra’s Link-State Routing algorithm recomputes the paths once a link dropped or turn out to be congested, since it actively adapts depends on the link-state updates.
- Configure Simulation Parameters:
- Describe the replication duration, for randomization to select a proper seed, and indicate the data collection intervals.
- Facilitate data collection on parameters related to routing like route discovery time, end-to-end delay, throughput, and OSPF overhead.
- Run the Simulation:
- Select the “Run” button for run the replication. Verify for errors or warnings before executing to make sure that configuration is correct.
- OPNET will utilize the Dijkstra algorithm within OSPF computing the shortest paths and update routes depends on any modifications within network topology, during the simulation.
- Analyze the Results:
- Monitor and interpret outcomes utilising the analysis tools within OPNET. Crucial performance parameters to analyse involve:
- Convergence Time: How rapidly the network adjusts to topology modifications.
- Packet Delivery Ratio: The ratio of packets is effectively delivered.
- Throughput: The successful message’s rate delivery through an interaction channel.
- End-to-End Delay: The average duration for packets to navigate the network.
- Routing Overhead: The control message overhead launched by OSPF updates.
- Monitor and interpret outcomes utilising the analysis tools within OPNET. Crucial performance parameters to analyse involve:
With the help of this manual, we learnt how to set up and create a network topology and how to analyse the outcomes for Dijkstra’s Link-State Routing projects that were simulated using OPNET. We can deliver further elaboration depends on your requests.
