Performance Evaluation of AODV, Tora and DSR Routing Protocols
Azeem Ayaz Mirani 11MS(IT)19 Supervisor Dr. Pardeep Kumar 11-MS(IT)-19
Performance Evaluation of AODV, Tora and DSR Routing Protocols - Nawabshah: QUEST, 2016. - 48p.
ABSTRACT
This thesis is based on the comparative study of MANET routing protocols named AODV, TORA and DSR protocols This Comparison is based on the implementation.
and evaluation of these protocols on the OPNET simulator. OPNET is a discreet event simulator that simulates different wireless networks against different parameters. For this study, several parameters such as upload response time, download response time,
total routing traffic, throughput, end-to-end delay, PDR, average number of hops per
route and the route discovery time have been considered. Various simulation results have been achieved that can be used for researchers and academician to further select, design and compare other routing protocols as per the requirements of their applications/networks. In this thesis, comparison of two networks is performed the large network consists of 100 nodes whereas the small network consists of 50 nodes. The results show that AODV performs better than DSR and TORA both in the large and in small networks; however, the upload response time of TORA is less than other protocols in the small network. On a whole, AODV performs consistently better than
SR and TORA regardless the size of the network.
Performance Evaluation of AODV, Tora and DSR Routing Protocols - Nawabshah: QUEST, 2016. - 48p.
ABSTRACT
This thesis is based on the comparative study of MANET routing protocols named AODV, TORA and DSR protocols This Comparison is based on the implementation.
and evaluation of these protocols on the OPNET simulator. OPNET is a discreet event simulator that simulates different wireless networks against different parameters. For this study, several parameters such as upload response time, download response time,
total routing traffic, throughput, end-to-end delay, PDR, average number of hops per
route and the route discovery time have been considered. Various simulation results have been achieved that can be used for researchers and academician to further select, design and compare other routing protocols as per the requirements of their applications/networks. In this thesis, comparison of two networks is performed the large network consists of 100 nodes whereas the small network consists of 50 nodes. The results show that AODV performs better than DSR and TORA both in the large and in small networks; however, the upload response time of TORA is less than other protocols in the small network. On a whole, AODV performs consistently better than
SR and TORA regardless the size of the network.