Fast and scalable handoffs for wireless internetworks
MobiCom '96 Proceedings of the 2nd annual international conference on Mobile computing and networking
Cellular IP: a new approach to Internet host mobility
ACM SIGCOMM Computer Communication Review
Extending Mobile IP with Adaptive Individual Paging: A Performance Analysis
ISCC '00 Proceedings of the Fifth IEEE Symposium on Computers and Communications (ISCC 2000)
HAWAII: A Domain-Based Approach for Supporting Mobility in Wide-Area Wireless Networks
ICNP '99 Proceedings of the Seventh Annual International Conference on Network Protocols
A protocol for micromobility management in next generation IPv6 networks
Proceedings of the second international workshop on Mobility management & wireless access protocols
Taxonomy and analysis of IP micro-mobility protocols in single and simultaneous movements scenarios
Mobile Information Systems
A simulated annealing based location area optimization in next generation mobile networks
Mobile Information Systems - Improving Quality of Service in Mobile Information Systems, Services and Networks
Mobile Next-Generation Networks
IEEE MultiMedia
Mobile Information Systems
IEEE Communications Surveys & Tutorials
IDMP: an intradomain mobility management protocol for next-generation wireless networks
IEEE Wireless Communications
Terminal independent mobility for IP (TIMIP)
IEEE Communications Magazine
At what layer does mobility belong?
IEEE Communications Magazine
Multicast-based mobility: a novel architecture for efficient micromobility
IEEE Journal on Selected Areas in Communications
Mobility management in current and future communications networks
IEEE Network: The Magazine of Global Internetworking
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Over the past years a number of IP micro-mobility protocols have been proposed as an extension or complement of Mobile IP. Although the development of these protocols has generated considerable interest in industry and academia, none of them have been widely deployed. The main reason of this lack of real-life usage of micro-mobility proposals is that the RFCs or drafts of these protocols do not address the problems regarding the realization of the micro-mobility structures in detail during the procedures of network design. This shortage is true in case of Hierarchical Mobile IP as well (RFC 4140), which is one of the most significant micro-mobility solutions aiming to reduce the signaling delay and the number of signaling messages of Mobile IP. In order to provide guidelines for network designers we propose a new a hierarchical network design algorithm (HIENDA) based on the structure given by a Location Area planning algorithm, aligned with a MAP allocation algorithm in Hierarchical Mobile IPv6 to optimize the mobility management in Mobil IP networks. HIENDA considers the topology constraints, and takes the available mobility pattern and Access Router handover rate information as input, and finds a near optimal hierarchical structure for which the total signaling cost will be minimal. From the simulation results the conclusion could be drawn that HIENDA outperforms the other existing hierarchy optimizing solutions in the term of Location Update Cost, at the same time keeping the Packet Delivery Cost on a low level.