Abstract
The current study presents the simulative study and evaluation of MANET mobility models over UDP traffic pattern to determine the effects of this traffic pattern on mobility models in MANET which is implemented in NS-2.35 according to various performance metri (Throughput, AED (Average End-2-end Delay), drop packets, NRL (Normalize Routing Load) and PDF (Packet Delivery Fraction)) with various parameters such as different velocities, different environment areas, different number of nodes, different traffic rates, different traffic sources, different pause times and different simulation times . A routing protocol.…was exploited AODV(Adhoc On demand Distance Vector) and RWP (Random Waypoint), GMM (Gauss Markov Model), RPGM (Reference Point Group Model) and MGM (Manhattan Grid Model) mobility models above CBR traffic sources. The results of Reference Point Group Model simulation illuminate that routing protocol performance is best with RPG mobility model than other models.
Highlights
The Mobile Ad-hoc Network (MANET) is a gathering of lymph node, which has the likelihood to interface on a radio communication sensitive and green goods a dynamic arrangement with radio connection and with no associate infrastructure
The current study investigates the mobility models performance based on both CBR based traffic pattern for various parameters such as different velocities, different stop times, different simulation environment area, different traffic rates, different no. of nodes, different traffic sources and different simulation times
This paper presented an evaluated and analyzed the four mobility models performance using NS-2.35 and Bonn Motion-2.1.a according to several performance metrics with various parameters over CBR traffic pattern
Summary
Performance Evaluation of Mobility Models over UDP Traffic Pattern for MANET Using NS-2. Received 30/3/2019, Accepted 26/2/2020, Published Online First 6/12/2020, Published 1/3/2021.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
