计算机技术与发展
計算機技術與髮展
계산궤기술여발전
COMPUTER TECHNOLOGY AND DEVELOPMENT
2014年
11期
190-193,198
,共5页
移动性管理%无线传感器网络%PMIPv6%簇
移動性管理%無線傳感器網絡%PMIPv6%簇
이동성관리%무선전감기망락%PMIPv6%족
mobility management%wireless sensor networks%PMIPv6%cluster
PMIPv6协议是MIPv6协议的扩展,是一种基于网络的移动性管理技术。在PMIPv6协议中,由网络负责探测节点的移动路径并初始化所必须的移动信令,MN不参与切换过程,能量消耗低,但是PMIPv6依赖于一个独一无二的处于网络中央的本地移动锚点( LMA),容易导致瓶颈问题,且带来切换时延长、通信路径非最优等问题。基于此,提出了一种基于PMIPv6的移动性管理方案,使用簇对移动接入网关(MAG)进行分组。在每个簇中选举出一个头移动接入网关(HMAG)作为簇头,由HMAG代替LMA负责执行本簇内的移动切换以及最优化数据通信路径,这样就减少了LMA的负载,延长了网络寿命。分析及仿真结果表明所提方案与PMIPv6相比在总开销、LMA负载等方面都有较大的改善。
PMIPv6協議是MIPv6協議的擴展,是一種基于網絡的移動性管理技術。在PMIPv6協議中,由網絡負責探測節點的移動路徑併初始化所必鬚的移動信令,MN不參與切換過程,能量消耗低,但是PMIPv6依賴于一箇獨一無二的處于網絡中央的本地移動錨點( LMA),容易導緻瓶頸問題,且帶來切換時延長、通信路徑非最優等問題。基于此,提齣瞭一種基于PMIPv6的移動性管理方案,使用簇對移動接入網關(MAG)進行分組。在每箇簇中選舉齣一箇頭移動接入網關(HMAG)作為簇頭,由HMAG代替LMA負責執行本簇內的移動切換以及最優化數據通信路徑,這樣就減少瞭LMA的負載,延長瞭網絡壽命。分析及倣真結果錶明所提方案與PMIPv6相比在總開銷、LMA負載等方麵都有較大的改善。
PMIPv6협의시MIPv6협의적확전,시일충기우망락적이동성관리기술。재PMIPv6협의중,유망락부책탐측절점적이동로경병초시화소필수적이동신령,MN불삼여절환과정,능량소모저,단시PMIPv6의뢰우일개독일무이적처우망락중앙적본지이동묘점( LMA),용역도치병경문제,차대래절환시연장、통신로경비최우등문제。기우차,제출료일충기우PMIPv6적이동성관리방안,사용족대이동접입망관(MAG)진행분조。재매개족중선거출일개두이동접입망관(HMAG)작위족두,유HMAG대체LMA부책집행본족내적이동절환이급최우화수거통신로경,저양취감소료LMA적부재,연장료망락수명。분석급방진결과표명소제방안여PMIPv6상비재총개소、LMA부재등방면도유교대적개선。
PMIPv6 is an extension of MIPv6,it is a network-based mobility management technique. In the PMIPv6,the tasks of detecting the path of nodes mobility and initiating the required mobility signals are completed by the network. Thus the MN don't participate in the process of handoff,the energy consumption is lower than MIPv6. But PMIPv6 depends on a single LMA (Local Mobility Anchor) which is in the center of the network,which leads to bottlenecks easily,and brings the problem of long handoff latency and non-optimized com-munication path. Considering the problems above all,propose a mobility management scheme based on PMIPv6. The proposed scheme u-ses cluster to group the MAGs ( Mobility Access Gateways) ,and selects a HMAG ( Head Mobility Access Gateway) as the cluster head in each cluster. The HMAG performs the intra-cluster handoff process and provides an optimized data communications path instead of LMA. Thus the design can reduce the LMA load and prolong the lifetime of the network. The analysis and simulation results show that the proposed scheme has a great improvement on total cost and LMA load compared with PMIPv6.