Source Specific Multicast (SSM) promises a wider dissemination of group distribution services than Any Source Multicast, as it relies on simpler routing strategies with reduced demands on the infrastructure. However, SSM is designed for á priori known and changeless addresses of multicast sources and thus withstands any easy extension to mobility. Up until now only few approaches arose from the Internet research community, leaving SSM source mobility as a major open problem. This paper introduces a straightforward extension to multicast routing for transforming (morphing) source specific delivery trees into optimal trees rooted at a relocated source. All packet forwarding is done free of tunneling. Multicast service disruption and signaling...
Key-based routing has enabled efficient group communication on the application or service middleware...
In future multimedia or integrated services (voice, video, data and images) wide-area communications...
Mobile IPv6 (MIPv6) describes how a mobile node can change its point of attachment to the Internet. ...
Source Specific Multicast (SSM) promises a wider dissemination of group distribution services than A...
Source Specific Multicast (SSM) promises a wider dissemination of group distribution services than A...
Source Specific Multicast (SSM) promises a wider dissemination of group distribution services than A...
Mobility is considered a key technology of the next generation Internet and has been standardized wi...
IP multicast deployment recently progresses, but group services often remain restricted to limited d...
Multicast network services advantageously complement multimedia information and communication techno...
Multimedia networking in the near future is expected to be dominated by group applications such as I...
Multicast data delivery carries distinct importance in mobile wireless environments, where bandwidth...
Protocol extensions for a mobile Internet have been developed within the IETF, but a standard design...
Abstract — To support multicast over Mobile IP networks, the IETF proposed two schemes, namely bi-di...
Part 4: Protocols and PerformanceInternational audienceThere is no effective method to support IP le...
Multicast trees can be shared across sources (shared trees) or may be source-specific (shortest path...
Key-based routing has enabled efficient group communication on the application or service middleware...
In future multimedia or integrated services (voice, video, data and images) wide-area communications...
Mobile IPv6 (MIPv6) describes how a mobile node can change its point of attachment to the Internet. ...
Source Specific Multicast (SSM) promises a wider dissemination of group distribution services than A...
Source Specific Multicast (SSM) promises a wider dissemination of group distribution services than A...
Source Specific Multicast (SSM) promises a wider dissemination of group distribution services than A...
Mobility is considered a key technology of the next generation Internet and has been standardized wi...
IP multicast deployment recently progresses, but group services often remain restricted to limited d...
Multicast network services advantageously complement multimedia information and communication techno...
Multimedia networking in the near future is expected to be dominated by group applications such as I...
Multicast data delivery carries distinct importance in mobile wireless environments, where bandwidth...
Protocol extensions for a mobile Internet have been developed within the IETF, but a standard design...
Abstract — To support multicast over Mobile IP networks, the IETF proposed two schemes, namely bi-di...
Part 4: Protocols and PerformanceInternational audienceThere is no effective method to support IP le...
Multicast trees can be shared across sources (shared trees) or may be source-specific (shortest path...
Key-based routing has enabled efficient group communication on the application or service middleware...
In future multimedia or integrated services (voice, video, data and images) wide-area communications...
Mobile IPv6 (MIPv6) describes how a mobile node can change its point of attachment to the Internet. ...