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A Novel Domain Re-organizing Algorithm for Network-Layer Mobility Management in 4G Networks. Jianwen Huang, Ruijun Feng, Lei Liu, Mei Song, Junde Song Communications, Circuits and Systems, 2004. ICCCAS 2004 Date:2006/03/22 Reporter : Bor-Shyang Liang. Outline. Introduction - PowerPoint PPT Presentation
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A Novel Domain Re-organizing Algorithm for Network-Layer Mobility Management in 4G
Networks
Jianwen Huang, Ruijun Feng, Lei Liu, Mei Song, Junde SongCommunications, Circuits and Systems, 2004. ICCCAS 2004
Date:2006/03/22Reporter : Bor-Shyang Liang
Outline
• Introduction– Hierarchical Mobile IPv6 Management
• Motivation• Domain Re-organizing Algorithm• Simulation scenario and result analy
sis• Conclusion
Introduction
• Network-Layer Mobility Management (NMM) combines the mobile communication technology and IP technology to form an enhanced mobility management for next generation All-IP wireless/mobile Internet.
• By extending Mobile IP protocol, the functions of hierarchical NMM is implemented.
Hierarchical Mobile IPv6 Management (HMIPv6)
• When high handoff frequently happens between two neighboring ARs, which are in the different domains respectively, it will cause a lot of inter-domain handoff signaling cost and delay.
Motivation
• How to adjust the network topology to against the fact that user mobility characteristics are always in changing?
Domain Re-organizing Algorithm
• Using real-time measurement to make different cells with highest handoff frequency into the same domain.– inter-domain handoff -> intra-domain handoff
Domain Re-organizing Scheme• Whole Network
– AN={a, b, c, d, e, f, g, …}• Pre-planned MAP domain set
– MN={(a, b, g, f), (d, e, h, i), (c, e, j, k),…}
={M1, M2, M3, …} • The set of neighbor cells of speci
al cell– N(a)={b, c, d, e, f, g}
• Handoff times between cell i and cell j between t
Domain Re-organizing Scheme (Cont.)• Tight neighbor cells
– Assume |N(i)|=ni, cell j is not under the same MAP domain as cell i,
HFi,j(t) > λ/ni (λ: weight factor) => j is one of the set Nt(i)
– Nt(a)={e, d}• Benefit gained form the algorithm
– λ1: intra-handoff cost factor λ2: inter-handoff cost factor (λ2 >= λ1) cell j is not under the same domain as cell i
Domain Re-organizing Algorithm (Cont.)
• Assume Nt(a) = {d,e} (HFa,d(t) > λ/6, HFa,e(t) > λ/6)
Domain Re-organizing Scheme (Cont.)
Simulation scenario• Simulation
– Tool : NS2 – Area : 400m x 400m– 802.11b wireless AP : 7– Radio transmission range : 100m– Cell overlap distance : 20m– Data Rate : 11Mb/s– Mobile Node :28 (MAP1<->MAP2:20)
• MAP– MAP1={1, 3}, MAP2={2, 5}, MAP3={4, 6, 7}– Connected with ARs
• Bandwidth = 10Mb/s, delay = 2ms• HA connected with network
– Bandwidth =100Mb/s, delay = 16ms
Signaling Cost v.s. Speed of MNs
Comparison of handoff delay before and after reorganizing scheme
Conclusion
• A good algorithm can make inter-handoff change to inter-handoff so that the signaling cost and handoff delay can be reduced.
• May frequent attachment process bring extra overhead to the network?