Improvement in the Mobility of Mobile IPV6 Based Mobile Networks using Reverse Routing Header Protocol and Fast Handoff

Bagde, Mohit; Sankar, P.

doi:10.5121/ijmnct.2013.3602

Cited by 2 publications

(4 citation statements)

References 12 publications

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“…MN transmits BU, and on the meantime, HA transmits BRR. The excessive BU packet from MN to HA and BRR packet from HA to MN sent simultaneously will lead to traffic congestion in that link . This causes overhead allowances in HA.…”

Section: System Descriptionmentioning

confidence: 99%

“…MIPv6, a de facto mobility support protocol in the Internet, is proposed by the Internet Engineering Task Force to exercise in IPv6 wireless environment . Numerous approaches have been proposed to improve the mobility management in IPv6 . MIPv6 allows the mobile node (MN) to maintain continuous connectivity whenever it changes its location between different networks.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Analytical model for Binding Refresh Request to reduce storage and communication overhead in MIPv6 network

Diana¹,

Sundarakantham²,

Shalinie³

et al. 2014

Int J Network Mgmt

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SUMMARY Home agent is a key component of MIPv6 functionality that comprises binding cache to hold the mobile nodes current point of attachment to the Internet. This paper is concerned with binding cache support for home agents within MIPv6 network. Existing binding cache of home agent supports weak cache consistency by using fixed contract length for Binding Refresh Request, which functions reasonably well in normal situations. However, maintaining a strong binding cache consistency in home agent as a crucial exceptional handling mechanism has become more demanding for the following objectives: (i) to adapt increasingly frequent change of care‐of address due to mobile nodes movement detection update; (ii) to provide fine‐grain controls to balance the binding cache load distributions for better delivery services; and (iii) to reduce the overhead allowances around the binding cache. In this paper, we have first verified the effectiveness of Binding Refresh Request contract length, and on the basis of that, two dynamic contract algorithms are suggested to reduce the storage and communication overhead allowances in binding cache. We have also compared our technique with the existing fixed Binding Refresh Request contract length, and our simulation results reveals that the proposed approach provides an effective performance to reduce overhead within the network. Copyright © 2014 John Wiley & Sons, Ltd.

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Section: System Descriptionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Analytical model for Binding Refresh Request to reduce storage and communication overhead in MIPv6 network

Diana¹,

Sundarakantham²,

Shalinie³

et al. 2014

Int J Network Mgmt

View full text Add to dashboard Cite

show abstract

“…MIPv6 has not seen commercial interest because it requires the mobile equipment itself to participate in the mobility process and this reduces the battery life of the mobile equipment. While MIPv6 manages mobility for a single host, the Network Mobility Basic Support Protocol (NEMO BSP) Although host-based Mobile IPv6 protocols have been studied extensively, a different approach where the entire network moves, known as Network Mobility (NEMO) is of great interest in the manages mobility for an entire network [1].…”

Section: A Mobile Ipv6 Networkmentioning

confidence: 99%

“…Mohit Bagde and P. Sankar [7] have proposed a method for improving the mobility using the fast handover of Mobile IPv6 (FMIPv6) and the Reverse Routing Header Protocol (RRH). The (RRH) protocol is employed is to record the route through which the packet travels from the Correspondent Node to the Mobile Node.…”

Section: Related Workmentioning

confidence: 99%

Enhanced Tunneling Technique for Flow-Based Fast Handover in Proxy Mobile Ipv6 Networks

Amgahd¹,

Yadav²

2016

ijarai

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Abstract-In the Mobile IPv6 network, each node is highly mobile and handoff is a very common process. When not processed efficiently, the handoff process may result in large amount of packet loss. If the handover process is performed without appropriate connection verification and through specified tunnels, then this may result in inappropriate traffic flow since the required traffic redirection may not happen in this case. To overcome these issues, we propose to develop an Enhanced Tunneling Technique for Flow-based Fast Handover in Proxy Mobile IPv6 Networks. In this technique, the packets are buffered to minimize the packet loss during handover and then the Flow based Fast Handover techique is employed to ensure that the traffic is redirected to the new subnet after handover process. Thus ensuring efficient network operation.

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Improvement in the Mobility of Mobile IPV6 Based Mobile Networks using Reverse Routing Header Protocol and Fast Handoff

Cited by 2 publications

References 12 publications

Analytical model for Binding Refresh Request to reduce storage and communication overhead in MIPv6 network

Analytical model for Binding Refresh Request to reduce storage and communication overhead in MIPv6 network

Enhanced Tunneling Technique for Flow-Based Fast Handover in Proxy Mobile Ipv6 Networks

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