Handover Algorithm to Avoid Duplication Authentication Within or Between Proxy Mobile IPv6 Domains

2019 ◽  
Vol 11 (3) ◽  
pp. 1-10
Author(s):  
Hewei Yu ◽  
Ziliang Li
Keyword(s):  
Mobile Node ◽  
Mobile Ipv6 ◽  
Test Bed ◽  
Handover Latency ◽  
Proxy Mobile Ipv6 ◽  
Mobile Access ◽  
Handover Scheme ◽  
Handover Algorithm

This article proposes an enhanced handover scheme of Proxy Mobile IPv6 (PMIPv6) which can avoid duplication authentication. In traditional handover scheme, a Mobile Node (MN) needs an authentication procedure by AAA (Authentication, Authorization and Accounting) server while it enters a PMIPv6 domain. However, when an MN moves to a new subnet in the same domain, it still needs another authentication procedure, which would increase handover latency. In the proposed scheme, an MN only needs to be authenticated once while it enters a PMIPv6 domain, and a Mobile Access Gateway (MAG) that an MN is attached to will send the authentication information to the New MAG (NMAG) which MN will access to before the MN's handover. So that MN can skip the second authentication. The authors build a test-bed and have done some tests. Result shows that this scheme has got improvement in decreasing handover latency.

scholarly journals Performance Improvement of Fast Handovers for Mobile Ipv6

2012 ◽  
Author(s):  
Dao Van Thanh ◽  
Nguyen Van Tam ◽  
Vu Duy Loi
Keyword(s):  
Performance Improvement ◽  
Mobile Node ◽  
Mobile Ipv6 ◽  
Average Throughput ◽  
Handover Latency ◽  
Handover Procedure ◽  
Moving Vehicles ◽  
Access Router ◽  
Handover Scheme ◽  
Stable Connection

Mobile Ipv6 (MIPv6) is designed to support IP mobility management in the Internet. The fast handovef fof Mobile Ipv6 (FMIPv6) is an extension of Mobile Ipv6. Because FMIPv6 provides the information for layer 2 (L2) handover in advance, the layer 3 handover procedure could start early in order to reduce the handover latency. However, the handover latency of FMIPv6 is still remaining large which is hardly to meet the requirements of real-time applications. To deal with this, we propose a modified fast handover scheme named as Improvement FMIPv6 (called I-FMIPv6) to reduce the overall latency on handover. In I-FMIPv6, when the Mobile Node (MN) receives a Fast Binding Acknowledgment (FBAck) message with the New Care- of Address (NcoA) acceptance, it will send an Binding Update (BU) message to the Correspondent Nodes (CNs) to update the MN’s new CoA before the 1.2 handover occurs. Thus, -FMIPv6 con void circle routing, wrong order and handover latency can be reduces up to 16.79%, the average throughput measured since MN lost connection to Previous Acces Router (PAR) till getting stable connection to New Access Router (NAR) can be increases up to 2.57% compared with FMIPv6 at the speed of the moving vehicles in the inner city.

Seamless Handover Scheme for Proxy Mobile IPv6

2008 ◽  
Author(s):  
Ju-Eun Kang ◽  
Dong-Won Kum ◽  
Yang Li ◽  
You-Ze Cho
Keyword(s):  
Mobile Ipv6 ◽  
Seamless Handover ◽  
Proxy Mobile Ipv6 ◽  
Handover Scheme

A Novel Mobility Management Scheme for Hierarchical MIPv6 Network

2014 ◽  
Vol 519-520 ◽  
pp. 142-145
Author(s):  
Jin Shan Sun ◽  
Ying You Wen ◽  
Yu Hui Liu ◽  
Hong Zhao
Keyword(s):  
Packet Loss ◽  
Mobile Node ◽  
Mobile Ipv6 ◽  
Fast Handover ◽  
Link Layer ◽  
Simulation Experiments ◽  
Trigger Mechanism ◽  
Management Scheme ◽  
Handover Scheme

Delay and packet loss caused by the basic mobile IPv6 handover protocol can not guarantee the service quality of real-time communication. In order to improve the performance of fast handover of the mobile IPv6, we proposed a fast handover scheme based on hierarchical mobility which combines micro mobility and the link layer trigger. By shielding local mobility of the mobile node, the scheme can greatly reduce the signaling information traffic from mobile node to HA and CN. Through the link layer trigger mechanism, the scheme builds a tunnel in advance to avoid packet loss. In order to verify the performance of the proposed scheme, we did some simulation experiments in the NS-2 environment. The simulation results show that the scheme reduces handover delay and packet loss effectively.

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