• Title/Summary/Keyword: mobility anchor failure

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Distributed Mobility Management Scheme for the Tactical Network (전술망을 위한 분산 이동성 관리 기법)

  • Kim, Yongsin;Sun, Kyoungjae;Kim, Younghan
    • The Journal of Korean Institute of Communications and Information Sciences
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    • v.39C no.11
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    • pp.1078-1087
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    • 2014
  • In the conventional centralized mobility management schemes, it can lead to single points of failure, occurrence of a bottleneck, since all data and control are concentrated on the mobility anchor which is located in home network. In the current research of distributed mobility management, it is doing research into distributed mobility management which is supported by distributed mobility anchors. Such schemes do not consider a failure of the mobility anchor. However, it could be an issue under tactical environment since it occur non-service problem due to anchor movement, maintenance, failure, etc. In this paper, we proposed new DMM scheme named T-DMM(Tactical-Distributed Mobility Management) which can support handover even if mobility anchor breaks down. From the numerical analysis, we evaluate signaling cost and handover latency.

A PMIPv6-based Distributed Mobility Control Scheme Considering a User's Movement Locality (사용자 이동 지역성을 고려한 PMIPv6 기반의 분산형 이동성 제어 기법)

  • Kong, Ki-Sik
    • Journal of Digital Contents Society
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    • v.14 no.3
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    • pp.283-290
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    • 2013
  • The current centralized mobility control protocols such as proxy mobile IPv6 (PMIPv6) are dependent on a central mobility anchor to process all control/data traffic. However, such centralized mobility control protocols have some drawbacks such as traffic concentration into the core network and serious service degradation in case of the failure of such a centralized mobility anchor, etc. In this paper, therefore, in order to alleviate these drawbacks, we propose a PMIPv6-based distributed mobility control scheme considering a user's movement locality. Performance evaluation results demonstrate that the proposed scheme has apparent potentials to alleviate serious drawbacks of S-PMIP, which is a closely-related distributed mobility control scheme, as well as PMIPv6, while reducing the total mobility control cost.

PMIP-based Distributed Mobility Management for Tactical Network (전술 기동망의 이동성 지원을 위한 PMIP기반 분산 이동성 관리 적용방안)

  • Sun, Kyoungjae;Kim, Younghan;Noh, Hongjun;Park, Hyungwon;Han, Myounghun;Kwon, Daehoon
    • Journal of the Korea Institute of Military Science and Technology
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    • v.22 no.5
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    • pp.654-666
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    • 2019
  • The tactical network has several different characteristics compared with commercial internet network such as hierarchical topology, dynamic topology changing and wireless link based connectivity. For considering IP mobility management in the tactical network, current mobility management using Mobile IP(MIP) is not suitable with some reasons such as non-optimal routing paths and single point of failure. Proxy Mobile IP(PMIP) which supporting network-based mobility in hierarchical manner can provide optimal routing path in the tactical network environment, but centralized anchor is still remained a threat to the stability of the tactical network which changes its topology dynamically. In this paper, we propose PMIP-based distributed mobility management for the tactical network environment. From our design, routing paths are always configured in optimized way, as well as path is recovered quickly when the mobility anchor of user is failed. From numerical analysis, comparing to other mobility scheme, result shows that the proposed scheme can reduce packet transmission cost and latency in tactical network model.

Cost-Effective Inter-LMA Domain Distributed Mobility Control Scheme in PMIPv6 Networks (PMIPv6 네트워크에서 비용효과적인 도메인 간의 분산 이동성 제어기법)

  • Jang, Soon-Ho;Jeong, Jong-Pil
    • The KIPS Transactions:PartC
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    • v.19C no.3
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    • pp.191-208
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    • 2012
  • Proxy Mobile IPv6 (PMIPv6) is designed to provide network-based mobility management support to an MN without any involvement of the MN in the mobility related signalling, hence, the proxy mobility entity performs all related signalling on behalf of the MN. The new principal functional entities of PMIPv6 are the local mobility anchor (LMA) and the mobile access gateway (MAG). In PMIPv6, all the data traffic sent from the MN gets routed to the LMA through a tunnel between the LMA and the MAG, but it still has the single point of failure (SPOF) and bottleneck state of traffic. To solve these problems, various approaches directed towards PMIPv6 performance improvements such as route optimization proposed. But these approaches add additional signalling to support MN's mobility, which incurs extra network overhead and still has difficult to apply to multiple-LMA networks. In this paper, we propose a improved route optimization in PMIPv6-based multiple-LMA networks. All LMA connected to the proxy internetworking gateway (PIG), which performs inter-domain distributed mobility control. And, each MAG keeps the information of all LMA in PMIPv6 domain, so it is possible to perform fast route optimization. Therefore, it supports route optimization without any additional signalling because the LMA receives the state information of route optimization from PIG.