Comparative Analysis of Two Prominent Routing Protocols in IPv6 Network: OSPFv3 & EIGRPv6 (original) (raw)
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The internet protocols are increasingly imposed in recent times, there is a need to propose a study on the performance analysis on OSPFV3 and EIGRP in IPV6 application. IP is currently involved in sensitive areas of internet protocols, remote sensing, telepresence, computer networks and so on. The IP exists in two versions (IPv4 and IPv6), the difference between these two protocols is distinguished in terms of features, operation, and performance. In this study, measuring and evaluation on the performance of the two IPv4 and IPv6 protocols in the networks of communicating companies are proposed for further studies based on the literature gaps identified. The study should be performed by varying the routing protocols RIP, RIPnG, OSPF, OSPFv3, IS-IS and ISIS v6. Further studies should conduct simulation on performance analysis of OSPFV3 and EIGRP in IPV6 applications. The gaps identified after reviewing a number of literature on OSPFV3 and EIGRP with IPV6 network needs to be done sinc...
International Journal of Engineering Research and Technology (IJERT), 2021
https://www.ijert.org/distribution-of-dynamic-routing-protocols-is-is-eigrp-ospf-in-ipv6-network-and-their-performance-analysis https://www.ijert.org/research/distribution-of-dynamic-routing-protocols-is-is-eigrp-ospf-in-ipv6-network-and-their-performance-analysis-IJERTCONV8IS17010.pdf In a network topology, it's very usual to use different kinds of routing protocol for forwarding packets. A routing table is employed within the in the memory of a router that keeps the track of routes to particular network destination and the most popular routing algorithms used to forward packets are Intermediate system-Intermediate system (IS-IS), Enhanced Interior Gateway Routing Protocol (EIGRP) and Open Shortest Path First (OSPF). The ultimatum of this research work is to depict the performance analysis comparison of those three dynamic routing protocols and redistribution among the protocols. 3 Personal computer, Nine Cisco c7200 routers and Four switch are employed in our simulated network topology where three sets of routers with different protocols directly connected with the switch take the responsibility for the redistribution algorithm.The performance of the three different protocols are analyzed using parameters like latency , throughput and packet loss.
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IPv6 is the next generation internet protocol which is gradually replacing the IPv4. IPv6 offers larger address space, simpler header format, efficient routing, better QoS and built-in security mechanisms. The migration from IPv4 to IPv6 cannot be attained in a short span of time. The main issue is compatibility and interoperability between the two protocols. Therefore, both the protocols are likely to coexist for a long time. Usually, tunneling protocols are deployed over hybrid IPv4-IPv6 networks to offer end-to-end IPv6 connectivity. Many routing protocols are used for IPv4 and IPv6. In this paper, researchers analyzed the optimized routing information exchange of two routing protocols (OSPFv3 & EIGRPv6) in hybrid IPv4-IPv6 network. Experimental results show that OSPFv3 performs better than EIGRPv6 in terms of most of the parameters i.e. convergence time, RTT, response time, tunnel overhead, protocol traffic statistics, CPU and memory utilization.
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Routing of data packets is a critical process on the internet, and routing protocols play a vital role in enabling routers to connect to internetworks using Internet protocols. Internet applications use various routing protocols, such as RIPng, OSPFv3, EIGRPv6, etc., each with its own approach to routing packets. This study presents a basic comparative analysis of as RIPng, OSPFv3, EIGRPv6 protocols. RIPng is an IPv6 routing protocol that allows routers to exchange routing information and calculate the shortest path to a destination based on the number of hops required. OSPFv3 is an IPv6 routing protocol that allows routers to exchange routing information and calculate the shortest path to a destination based on the state of the network links and EIGRPv6 is an IPv6 routing protocol that allows routers to exchange routing information and calculate the shortest path to a destination using both distance-vector and link-state algorithms. The paper "A Comparative Study on Routing Protocols: RIPng, OSPFv3 and EIGRPv6 and Their Analysis Using GNS-3" presents a comparative study on the performance of RIPng, OSPFv3, and EIGRPv6, which are the IPv6 routing protocols equivalent to RIP, OSPF, and EIGRP in IPv4 networks.
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Performance Evaluation Of OSPFv3 Routing Protocol On IPv6 Heterogeneous Network
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IPv6 also known as next generation protocol has abundant address space and various advance features to meet varying demands of present and future networks. Once migrated to IPv6, OSPFv3 an IPv6 based Routing Protocol will be first choice among various users to replace its predecessor IPv4 based OSPv2 Routing Protocol. Internet protocol (IP) traffic follows rules established by routing protocols, such as open shortest path first (OSPF). Each router computes shortest paths using weights assigned by the network operator, and creates destination tables used to direct each IP packet to the next router on the path to its final destination. Furthermore, the routing protocol is used to establish procedures to be taken in case of a failure in the network. In this paper, a new genetic algorithm for designing a network with minimal total link capacity is introduced which is necessary to route without overload in case of any single edge or node failure. The real time environment approaches a lo...
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With the explosive growth in communication and network technologies, there is a great demand of IPv6 addressing scheme. However, the modern operating systems has option for this and with the development of IPv6 which removes the limitations imposed by IPv4 and provides the large number of address space. In this paper, authors have considered the Enhanced Interior Gateway Routing Protocol and presented a scenario for its performance evaluation in IPv6 networks and obtained results are highly considerable for the short distance of communication and don't represent any problem of performance degradation while sending or receiving the data.