A passive state-machine approach for accurate analysis of TCP out-of-sequence segments
ACM SIGCOMM Computer Communication Review
Evolved Packet System (EPS): The LTE and SAE Evolution of 3G UMTS
Evolved Packet System (EPS): The LTE and SAE Evolution of 3G UMTS
Network-based mobility management in the evolved 3GPP core network
IEEE Communications Magazine
Computer Networks: The International Journal of Computer and Telecommunications Networking
Flat architectures: towards scalable future internet mobility
The future internet
Gateway relocation avoidance-aware network function placement in carrier cloud
Proceedings of the 16th ACM international conference on Modeling, analysis & simulation of wireless and mobile systems
Performance Analysis on Network-Based Distributed Mobility Management
Wireless Personal Communications: An International Journal
Performance analysis of distributed mapping system in ID/locator separation architectures
Journal of Network and Computer Applications
Studying the integration of distributed and dynamic schemes in the mobility management
Computer Networks: The International Journal of Computer and Telecommunications Networking
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Expecting a significant increase in number of mobile terminals to be managed together with a mobile data traffic boom in future heterogeneous networks, current centralized mobility management schemes may encounter scalability issues due to the creation of network bottlenecks and single point of failures. Recently, alternative approaches have been proposed to better distribute mobility management entities not only in the control plane but also in the data one like the "Dynamic Mobility Anchoring" scheme we designed. In this article we compare centralized and distributed approaches and describe our simulation environment using TCP in both schemes. The obtained results validate the adequacy and design of "Dynamic Mobility Anchoring". They confirm that we may expect interesting benefits in terms of handover latency and global scalability when moving towards such a distributed mobility management in future networks.