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Abstract

New study which contains the details related to the appropriate software and hardware products, IP address schema, required services and features, network diagram and explanation on the integration plan to achieve the solution. OSPF is a complex link-state routing protocol. Link-state routing protocols generate routing updates only when a change occurs in the network topology. OSPF supports complex networks with multiple routers, including backup routers. OSPF executes its own particular transport layer error location and amendment capacities. OSPF utilizes multicast tending to for disseminating course data inside a communicate area. For secure transmission we use SSH and PPP protocols. A secure channel is created for transmission of data in the shortest path in network using SSH protocol. Password authentication to log in is used as a way to implement SSH. To avoid data loss while transmission two routers are connected securely using PPP p OSPF is a complex link-state routing protocol. Link-state routing protocols generate routing updates only when a change occurs in the network topology. OSPF supports complex networks with multiple routers, including backup routers. OSPF executes its own particular transport layer error location and amendment capacities. OSPF utilizes multicast tending to for disseminating course data inside a communicate area. In our proposed system, we use SSH and PPP protocols for secure transmission of data packets. In SSH protocol, a secure channel is created for transmission of data in the shortest path in network which is implemented in the form of password authentication and PPP is used to avoid loss of data during transmission among the routers. We use Cisco Packet Tracer for creating a network topology and to obtain the better results.

Article Details

How to Cite
Karthikeyan.R, Madhusudhanan.M, Precila.A, & Kavitha M. (2018). Identifying the Shortest Path during Data Transmission in Networks Using OSPF Protocol . International Journal of Intellectual Advancements and Research in Engineering Computations, 6(2), 2062–2068. Retrieved from https://ijiarec.com/ijiarec/article/view/789