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Micromobility protocols aim to improve localized mobility by reducing the handover overhead. The Mobility Plane Architecture (MPA) was designed to support micromobility in standard IP or MPLS/GMPLS networks in a network-centric way, that is, the burden demanded by micromobility is placed on the network, not on the mobile nodes. The aim of this paper is to present the reactive and proactive handover...
This paper presents the design and implementation of the mobility plane architecture (MPA). MPA is a network architecture that provides micro-mobility in a network-centric way, that is, the burden of supporting micro-mobility is placed on the network and not on the mobile nodes. The implementation employs RSVP-TE to establish IP/IP and MPLS point-to-multipoint tunnels in order to direct traffic to...
The mobile plane architecture (MPA) is a network architecture that provides micro-mobility in a network-centric way, that is, the burden of supporting micro-mobility is placed on the network and not on the mobile nodes. MPA employs an overlay network above an IPv4 or IPv6 transport network in order to direct traffic to the mobile nodes. The overlay network is built by establishing point-to-multipoint...
Micro-mobility protocols aim to improve localized mobility by reducing the handover overhead. The mobility plane architecture (MPA) was designed to support micro-mobility in standard IP or MPLS/GMPLS networks in a network-centric way: that is, the burden demanded by micro-mobility is placed on the network, not on the mobile nodes. The aim of this paper is to present some insights on performance evaluation...
In this paper, we describe a queueing network model representing the mobility plane architecture, which allows mobile users to register in the system and move around while stay connected. This paper presents a system overview, including node attachment, node updating and handover procedures. Two queueing network models and their evaluation on a simulation tool are presented, resulting in some important...
This paper presents an architecture for supporting micro-mobility in IP networks. The architecture is presented in terms of its functional blocks and interaction protocols. The architecture, named mobility plane architecture (MPA), offers a network-centric solution for micro-mobility. This means that all the functions necessary for supporting Layer-3 mobility are placed on the network, not on the...
Micro-mobility protocols aim to improve localized mobility by reducing the handover overheads. In this paper we present the Mobility Plane Architecture (MPA). This architecture was designed to support micro-mobility in standard IP or MPLS/GMPLS networks in a network-centric way, that is, the burden demanded by micro-mobility is placed on the network, not on the mobile nodes. The main advantages of...
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