DocumentCode
2499781
Title
Dynamic Routing Protocol Implementation Decision between EIGRP, OSPF and RIP Based on Technical Background Using OPNET Modeler
Author
Thorenoor, Sheela Ganesh
Author_Institution
Wipro Technol., Bangalore, India
fYear
2010
fDate
23-25 April 2010
Firstpage
191
Lastpage
195
Abstract
This paper presents th implementation decisions to be made when th choice is between protocols that involve distance vector or link state or the combination of both. Here a comparison is made between different parameters and a detailed simulation study is performed on the network with different routing protocols and it has been shown that EIGRP provides a better network convergence time, less bandwidth requirements and better CPU and memory utilization compared to OSPF and RIP. EIGRP, OSPF and RIP are the dynamic routing protocols being used in the practical networks to propagat network topology information to the neighboring routers. There have been a large number of static and dynamic routing protocols available but choice of the right protocol for routing is dependent on many parameters critical being network convergence time, scalability, memory and CPU requirements, security and bandwidth requirement etc.
Keywords
bandwidth allocation; convergence; resource allocation; routing protocols; telecommunication network topology; CPU utilization; EIGRP; OPNET modeler; OSPF; RIP; bandwidth requirements; distance vector; dynamic routing protocol; link state; memory utilization; network convergence time; network topology; Bandwidth; Communication system traffic control; Computer networks; Convergence; Data security; Information security; Network topology; Routing protocols; Scalability; Web and internet services; CPU Utilization; Dynamic Routing Protocol; EIGRP; Network Convergence; OPNET; OSPF; RIP;
fLanguage
English
Publisher
ieee
Conference_Titel
Computer and Network Technology (ICCNT), 2010 Second International Conference on
Conference_Location
Bangkok
Print_ISBN
978-0-7695-4042-9
Electronic_ISBN
978-1-4244-6962-8
Type
conf
DOI
10.1109/ICCNT.2010.66
Filename
5474509
Link To Document