An end-to-end approach to host mobility
MobiCom '00 Proceedings of the 6th annual international conference on Mobile computing and networking
TCP-R: TCP mobility support for continuous operation
ICNP '97 Proceedings of the 1997 International Conference on Network Protocols (ICNP '97)
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IEEE Transactions on Mobile Computing
Vertical handover management scheme using multiple TCP connections for heterogeneous networks
Proceedings of the second ACM international workshop on Wireless network testbeds, experimental evaluation and characterization
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Performance analysis of mobility management protocols using a generic mathematical model
Proceedings of the 10th ACM Symposium on Modeling, analysis, and simulation of wireless and mobile systems
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ICIC'09 Proceedings of the 5th international conference on Emerging intelligent computing technology and applications
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IEEE Communications Magazine
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Seamless SIP-based mobility for multimedia applications
IEEE Network: The Magazine of Global Internetworking
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Mobility management for TCP connections has been discussed in literature since last several years. Many mobility management solutions have been proposed including end-to-end solutions and infrastructure dependent solutions. These solutions operate at different layers of TCP/IP protocol stack. End-to-end mobility management solutions have the advantage of not requiring the deployment of additional entities in network infrastructure to handle mobility management as compared to the infrastructure dependant solutions. Performance analysis of these end-to-end mobility management protocols seems missing in literature. In this paper, we analyze the performance of different end-to-end mobility management protocols using mathematical modeling. Evaluation has been carried out for evaluating the handover delay, throughput degradation time and protocol overhead. Some security and implementation issues pertaining to these protocols have also been discussed. Results show that protocols that allow simultaneous communication through multiple network interfaces provide throughput stability during vertical handovers, thus facilitating smooth handovers.