Authentication Mechanism for Fast Handover PMIPv6 Networks

Authentication Mechanism for Fast Handover PMIPv6 Networks N.S.Nandhinee S.Kayalvizhi    Abstract —The Internet Engineering Task Force (IETF) proposed a host-based mobility management protocol, called Mobile IPv6 (MIPv6) protocol for mobile nodes (MNs) to maintain continuous service when they move among different foreign networks. However, Mobile IPv6 does not provide good service for real-time applications because it causes longer disruptions when the handoff takes place. Recently, the IETF NETLMM working group developed a network-based localized mobility management protocol called Proxy Mobile IPv6 (PMIPv6) to reduce the handoff latency of MIPv6. PMIPv6 still suffers from packet loss problem and signaling overhead. This paper performs a Bicasting scheme to reduce packet loss, use the piggyback technique to reduce the signaling overhead, also provides Authentication mechanism for protecting valid user from attacks in PMIPv6 networks. Keywords—Authentication, bicasting, handover, piggyback, Proxy Mobile IPv6 (PMIPv6) 1 . Introduction As wireless technologies have grown, all the people want to use wireless networks while moving from one place to another. At the same time Mobile MIPv6 was developed by the internet Engineering Task Force (IETF) to support the Mobile Node. Even after introducing the Mobile IPv6 Mobile Nodes (MNs) did not receive any data packets when it performs the handover that involves , IP address configuration, movement detection and location update latencies. To reduce the handover latency, Fast Handover has been developed. Fast handover performs the movement detection and IP address whenever the Mobile Nodes move from one location to another. Therefore Fast handover protocol reduces the handover latency. However , MIPv6 cannot satisfy all the requirements of real time applications such as video streaming service and voice over internet protocol (VoIP) service due to its high handover latency. To address this problem, the Internet Engineering Task Force (IETF) NETLMM working gro up developed a network based localized mobility management protocol called Proxy Mobile IPv6 (PMIPv6) to reduce the handoff latency of MIPv6.Moreover, PMIPv6 provides the IP with the mobility to support MNs without requiring its participation in any mobility-related signaling. Although PMIPv6 reduces lots of handoff latency compared with MIPv6, it still suffers from packet loss, signaling overhead and inefficient authentication procedure problems during handoff. This is because PMIPv6 does not use any buffer mechanism during the handoff procedure and performs the authentication and registration phases separately. Therefore this paper used a bicasting scheme for packet loss and piggybacking technique for signaling overhead. 2. Related works 2.1. survey on fast handover Chaung and Lee [2] proposed handoff schemes for PMIPv6 networks perform the authentication and registration phases separately, resulting in longer handoff latency. A. Pre-Handoff procedure The movements of an MN is det ected using the MAG and it performs mobility-related signaling with the LMA in place of the MN. The pre-handoff phase starts only when the MN is going to leave the range of the serving MAG (i.e., MAG1). First, MAG1 sends a handoff initial (HI) message to the target MAG(i.e., MN-ID) and the address of the target MAG. Then , MAG2 sends back a handoff acknowledgement (HACK) message to MAG1, and then a bi-directional tunnel is built between MAG1 and MAG2. After the bi-directional tunnel is built , the buffer of MAG2 prepares to buffer.