Highly dynamic Destination-Sequenced Distance-Vector routing (DSDV) for mobile computers
SIGCOMM '94 Proceedings of the conference on Communications architectures, protocols and applications
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PADS '98 Proceedings of the twelfth workshop on Parallel and distributed simulation
A performance comparison of multi-hop wireless ad hoc network routing protocols
MobiCom '98 Proceedings of the 4th annual ACM/IEEE international conference on Mobile computing and networking
Scenario-based performance analysis of routing protocols for mobile ad-hoc networks
MobiCom '99 Proceedings of the 5th annual ACM/IEEE international conference on Mobile computing and networking
Simulation-based performance evaluation of routing protocols for mobile ad hoc networks
Mobile Networks and Applications
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Wireless Networks
Source-Tree Routing in Wireless Networks
ICNP '99 Proceedings of the Seventh Annual International Conference on Network Protocols
Dynamic preferences in multi-criteria reinforcement learning
ICML '05 Proceedings of the 22nd international conference on Machine learning
Congestion Adaptive Routing in Mobile Ad Hoc Networks
IEEE Transactions on Parallel and Distributed Systems
QoS-Aware Congestion Adaptive Routing for streaming multimedia in Mobile Ad hoc Networks
International Journal of Communication Networks and Distributed Systems
AODV with sufficient bandwidth aware routing protocol
Proceedings of the 6th International Wireless Communications and Mobile Computing Conference
Performance study of a wireless dynamic topology over high mobility conditions
CIT'10 Proceedings of the 4th international conference on Communications and information technology
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We investigate the performance issues of destination-sequenced distance vector (DSDV) and ad-hoc on-demand distance vector (AODV) routing protocols for mobile ad hoc networks. Four performance metrics are measured by varying the maximum speed of mobile hosts, the number of connections, and the network size. The correlation between network topology change and mobility is investigated by using linear regression analysis. The simulation results indicate that AODV outperforms DSDV in less stressful situations, while DSDV is more scalable with respect to the network size. It is observed that network congestion is the dominant reason for packet drop for both protocols. We propose a new routing protocol, congestion-aware distance vector (CADV), to address the congestion issues. CADV outperforms AODV in delivery ratio by about 5%, while introduces less protocol load. The result demonstrates that integrating congestion avoidance mechanisms with proactive routing protocols is a promising way to improve performance.