Proxy Mobile IPv6 is a network-based mobility management protocol which is attractive as it does not require the participation of mobile nodes in mobility-related signaling. Unlike the host based approaches like Mobile IPv6, in PMIPv6 the Mobility Access Gateway (MAG) is responsible for tracking the movements of Mobile Node (MN) and to initiate the handover process. In this study, a novel method of multicasting the data packets to both the previous and the new MAGs by Local Mobility Anchor (LMA) during the handover process is proposed. The experimental results show that the handover delay is greatly reduced when compared to the existing approaches and the packet loss during the handover process is reduced
International audienceAs Internet Protocol (IP) multicast allows the efficient use of network bandwi...
Mobile Internet Protocol version 6 (MIPv6) has been proposed to solve the problem of mobility in the...
Current IP-level mobility protocols have difficulties meeting the stringent handover delay requireme...
Recently, Proxy Mobile IPv6 (PMIPv6) has received much attention as a mobility management protocol i...
There is a demand in the Public Protection and Disaster Relief (PPDR) community for high bandwidth s...
AbstractThe Internet Engineering Task Force proposed a Network based Local Mobility Management (NETL...
Proxy Mobile IPv6 (PMIPv6) specifies mobility support for IPv6 nodes without client functionality of...
Mobile IPv6 (MIPv6; RFC 3775) provides a mobile node with IP mobility when it performs a handover fr...
draft-cui-netext-pmipv6-shpmipv6-00 Proxy Mobile IPv6 (PMIPv6), specified in [RFC5213], provide a mo...
The objective of this paper is to present performance analysis of a new enhanced mobile multicast ne...
Abstract. Mobile IPv6 enables mobile node to roam transparently in any network. It shows good perfor...
Abstract — Proxy Mobile IPv6 is a promising protocol for supporting mobility. Unlike Mobile IPv6, wh...
Handover in future wireless communication systems must be seamless. Current IP-level mobility protoc...
Proxy Mobile IPv6 (PMIPv6) was standardized to reduce the long handoff latency, packet loss and sign...
International audienceAs IP multicast allows the efficient use of network bandwidth for multipoint c...
International audienceAs Internet Protocol (IP) multicast allows the efficient use of network bandwi...
Mobile Internet Protocol version 6 (MIPv6) has been proposed to solve the problem of mobility in the...
Current IP-level mobility protocols have difficulties meeting the stringent handover delay requireme...
Recently, Proxy Mobile IPv6 (PMIPv6) has received much attention as a mobility management protocol i...
There is a demand in the Public Protection and Disaster Relief (PPDR) community for high bandwidth s...
AbstractThe Internet Engineering Task Force proposed a Network based Local Mobility Management (NETL...
Proxy Mobile IPv6 (PMIPv6) specifies mobility support for IPv6 nodes without client functionality of...
Mobile IPv6 (MIPv6; RFC 3775) provides a mobile node with IP mobility when it performs a handover fr...
draft-cui-netext-pmipv6-shpmipv6-00 Proxy Mobile IPv6 (PMIPv6), specified in [RFC5213], provide a mo...
The objective of this paper is to present performance analysis of a new enhanced mobile multicast ne...
Abstract. Mobile IPv6 enables mobile node to roam transparently in any network. It shows good perfor...
Abstract — Proxy Mobile IPv6 is a promising protocol for supporting mobility. Unlike Mobile IPv6, wh...
Handover in future wireless communication systems must be seamless. Current IP-level mobility protoc...
Proxy Mobile IPv6 (PMIPv6) was standardized to reduce the long handoff latency, packet loss and sign...
International audienceAs IP multicast allows the efficient use of network bandwidth for multipoint c...
International audienceAs Internet Protocol (IP) multicast allows the efficient use of network bandwi...
Mobile Internet Protocol version 6 (MIPv6) has been proposed to solve the problem of mobility in the...
Current IP-level mobility protocols have difficulties meeting the stringent handover delay requireme...