246 research outputs found
Roaming Real-Time Applications - Mobility Services in IPv6 Networks
Emerging mobility standards within the next generation Internet Protocol,
IPv6, promise to continuously operate devices roaming between IP networks.
Associated with the paradigm of ubiquitous computing and communication, network
technology is on the spot to deliver voice and videoconferencing as a standard
internet solution. However, current roaming procedures are too slow, to remain
seamless for real-time applications. Multicast mobility still waits for a
convincing design. This paper investigates the temporal behaviour of mobile
IPv6 with dedicated focus on topological impacts. Extending the hierarchical
mobile IPv6 approach we suggest protocol improvements for a continuous
handover, which may serve bidirectional multicast communication, as well. Along
this line a multicast mobility concept is introduced as a service for clients
and sources, as they are of dedicated importance in multipoint conferencing
applications. The mechanisms introduced do not rely on assumptions of any
specific multicast routing protocol in use.Comment: 15 pages, 5 figure
Performance Analysis of Multicast Mobility in a Hierarchical Mobile IP Proxy Environment
Mobility support in IPv6 networks is ready for release as an RFC, stimulating
major discussions on improvements to meet real-time communication requirements.
Sprawling hot spots of IP-only wireless networks at the same time await voice
and videoconferencing as standard mobile Internet services, thereby adding the
request for multicast support to real-time mobility. This paper briefly
introduces current approaches for seamless multicast extensions to Mobile IPv6.
Key issues of multicast mobility are discussed. Both analytically and in
simulations comparisons are drawn between handover performance characteristics,
dedicating special focus on the M-HMIPv6 approach.Comment: 11 pages, 7 figure
Mobile IP: state of the art report
Due to roaming, a mobile device may change its network attachment each time it moves to a new link. This might cause a disruption for the Internet data packets that have to reach the mobile node. Mobile IP is a protocol, developed by the Mobile IP Internet Engineering Task Force (IETF) working group, that is able to inform the network about this change in network attachment such that the Internet data packets will be delivered in a seamless way to the new point of attachment. This document presents current developments and research activities in the Mobile IP area
Network-based localized IP mobility management: Proxy Mobile IPv6 and current trends in standardization
IP mobility support has been a hot topic over the last years, recently fostered by the role of IP in the evolution of the 3G mobile communication networks. Standardization bodies, namely IETF, IEEE and 3GPP are working on different aspects of the mobility aiming at improving the mobility experience perceived by users. Traditional IP mobility support mechanisms, Mobile IPv4 or Mobile IPv6, are based on the operation of the terminal to keep ongoing sessions despite the movement. The current trend is towards network-based solutions where mobility support is based on network operation. Proxy Mobile IPv6 is a promising specification that allows network operators to provide localized mobility support without relying on mobility functionality or configuration present in the mobile nodes, which greatly eases the deployment of the solution. This paper presents Proxy Mobile IPv6 and the different extensions that are been considered by the standardization bodies to enhance the basic protocol with interesting features needed to offer a richer mobility experience, namely, flow mobility, multicast and network mobility support.European Community's Seventh Framework ProgramThe research leading to the results presented in this paper has received funding from the Spanish MICINN
through the I-MOVING project (TEC2010-18907) and from the European Community’s Seventh Framework
Programme (FP7/2007-2013) under grant agreement 258053 (MEDIEVAL project).Publicad
Simulation Analysis for Multicast Context Delivery Network Mobility Management
The objective of this paper is to presents analyses for multicast network mobility management using NS3. It is mainly to verify the proposed network architecture and its activities. NS3 is a network simulator that implements virtually network prototype that is close to real implementation. Network mobility management has become a popular topic in networking research due to its ability to mitigate mobile IPv6 problems. However the standard network mobility management only introduced to support unicast traffic. Hence this paper integrates context transfer and multicast fast reroute, and implements this integration to the standard network mobility management. This implementation enables multicast to network mobility management with high network performance support. The analyses focus on the throughput performance. The analyses of this simulator are hereby presented
A Distributed Multimedia Communication System and its Applications to E-Learning
In this paper we report on a multimedia communication system including a
VCoIP (Video Conferencing over IP) software with a distributed architecture and
its applications for teaching scenarios. It is a simple, ready-to-use scheme
for distributed presenting, recording and streaming multimedia content. We also
introduce and investigate concepts and experiments to IPv6 user and session
mobility, with the special focus on real-time video group communication.Comment: Including 6 figure
Macro/micro-mobility fast handover in hierarchical mobile IPv6
Mobile Internet Protocol version 6 (MIPv6) has been proposed to solve the problem of mobility in the new era of Internet by handling
routing of IPv6 packets to mobile nodes that have moved away from their home network. Users will move frequently between networks, as
they stay connected to the Internet. Thus, as mobility increases across networks, handovers will significantly impact the quality of the
connection and user application.
However, MIPv6 only defines means of managing global (macro)-mobility but does not address micro-mobility separately. Instead, it uses
the same mechanism in both cases. This involves long handover delay and signaling load. The Hierarchical Mobile IPv6 (HMIPv6) protocol
has been proposed as an extension of basic MIPv6 to solve this problem by splitting the handover management into macro-mobility and
micro-mobility schemes. HMIPv6 introduced a new protocol agent called Mobility Anchor Point (MAP) to manage mobility and serve as a
local entity to aid in mobile handover. The handover (or registration) operation is the operation when MN registers its presence to its Home
Agent (HA) and Correspondent Node (CN).
This paper proposes a mechanism to perform fast handover in HMIPv6 by adopting the multicast technique to the MAP for both macromobility
and micro-mobility management. Our proposal is designed to minimize service disruption that occurs during the registration
operation. We simulate the performance using network simulator (NS-2) and we present and analyze the performance testing for our proposal
by comparing it with the basic hierarchical mobile IPv6. The results show that our scheme allows the MN to receive packets faster than the
basic HMIPv6
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