Autonomous, scalable, and resilient overlay infrastructure
Identifieur interne : 003E46 ( PascalFrancis/Corpus ); précédent : 003E45; suivant : 003E47Autonomous, scalable, and resilient overlay infrastructure
Auteurs : Khaldoon Shami ; Damien Magoni ; Pascal LorenzSource :
- Journal of communication and networks [ 1229-2370 ] ; 2006.
Descripteurs français
- Pascal (Inist)
English descriptors
- KwdEn :
Abstract
Many distributed applications build overlays on top of the Internet. Several unsolved issues at the network layer can explain this trend to implement network services such as multicast, mobility, and security at the application layer. On one hand, overlays creating basic topologies are usually limited in flexibility and scalability. On the other hand, overlays creating complex topologies require some form of application level addressing, routing, and naming mechanisms. Our aim is to design an efficient and robust addressing, routing, and naming infrastructure for these complex overlays. Our only assumption is that they are deployed over the Internet topology. Applications that use our middleware will be relieved from managing their own overlay topologies. Our infrastructure is based on the separation of the naming and the addressing planes and provides a convergence plane for the current heterogeneous Internet environment. To implement this property, we have designed a scalable distributed k-resilient name to address binding system. This paper describes the design of our overlay infrastructure and presents performance results concerning its routing scalability, its path inflation efficiency and its resilience to network dynamics.
Notice en format standard (ISO 2709)
Pour connaître la documentation sur le format Inist Standard.
pA |
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Format Inist (serveur)
NO : | PASCAL 07-0055680 INIST |
---|---|
ET : | Autonomous, scalable, and resilient overlay infrastructure |
AU : | SHAMI (Khaldoon); MAGONI (Damien); LORENZ (Pascal); JAMALIPOUR (Abbas); KATO (Nei); CHEN (Hsiao-Hwa); JUN (Kyung Pyo) |
AF : | GRTC, Universite de Haute Alsace/France (1 aut., 3 aut.); LSIIT-CNRS, Université Louis Pasteur/France (2 aut.); School of Electrical and Information Engineering, University of Sydney/Australie (1 aut.); Graduate School of Information Sciences, Tohoku University/Sendai/Japon (2 aut.); Institute of Communications Engineering, National Sun Yat-Sen University/Taïwan (3 aut.); Electronics and Telecommunications Research Institute (ETRI)/Corée, République de (4 aut.) |
DT : | Publication en série; Niveau analytique |
SO : | Journal of communication and networks; ISSN 1229-2370; Corée, République de; Da. 2006; Vol. 8; No. 4; Pp. 378-390; Bibl. 26 ref. |
LA : | Anglais |
EA : | Many distributed applications build overlays on top of the Internet. Several unsolved issues at the network layer can explain this trend to implement network services such as multicast, mobility, and security at the application layer. On one hand, overlays creating basic topologies are usually limited in flexibility and scalability. On the other hand, overlays creating complex topologies require some form of application level addressing, routing, and naming mechanisms. Our aim is to design an efficient and robust addressing, routing, and naming infrastructure for these complex overlays. Our only assumption is that they are deployed over the Internet topology. Applications that use our middleware will be relieved from managing their own overlay topologies. Our infrastructure is based on the separation of the naming and the addressing planes and provides a convergence plane for the current heterogeneous Internet environment. To implement this property, we have designed a scalable distributed k-resilient name to address binding system. This paper describes the design of our overlay infrastructure and presents performance results concerning its routing scalability, its path inflation efficiency and its resilience to network dynamics. |
CC : | 001D04B03D4; 001D04B03B; 001D04B02G |
FD : | Système autonome; Extensibilité; Application répartie; Internet; Implémentation; Réseau ordinateur; Service télécommunication; Service réseau; Multidestinataire; Diffusion information; Sécurité; Flexibilité; Adressage; Routage; Intergiciel; Evaluation performance; Résilience; Diffusion donnée |
ED : | Autonomous system; Scalability; Distributed application; Internet; Implementation; Computer network; Telecommunication services; Network service; Multicast; Information dissemination; Safety; Flexibility; Addressing; Routing; Middleware; Performance evaluation; Resilience; Data broadcast |
SD : | Sistema autónomo; Estensibilidad; Aplicación distribuida; Internet; Implementación; Red informática; Servicio de red; Multidestinatario; Difusión información; Seguridad; Flexibilidad; Direccionamiento; Enrutamiento; Logicial personalizado; Evaluación prestación; Resiliencia; Difusion dato |
LO : | INIST-26873.354000159711540020 |
ID : | 07-0055680 |
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Pascal:07-0055680Le document en format XML
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<ET>Autonomous, scalable, and resilient overlay infrastructure</ET>
<AU>SHAMI (Khaldoon); MAGONI (Damien); LORENZ (Pascal); JAMALIPOUR (Abbas); KATO (Nei); CHEN (Hsiao-Hwa); JUN (Kyung Pyo)</AU>
<AF>GRTC, Universite de Haute Alsace/France (1 aut., 3 aut.); LSIIT-CNRS, Université Louis Pasteur/France (2 aut.); School of Electrical and Information Engineering, University of Sydney/Australie (1 aut.); Graduate School of Information Sciences, Tohoku University/Sendai/Japon (2 aut.); Institute of Communications Engineering, National Sun Yat-Sen University/Taïwan (3 aut.); Electronics and Telecommunications Research Institute (ETRI)/Corée, République de (4 aut.)</AF>
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<EA>Many distributed applications build overlays on top of the Internet. Several unsolved issues at the network layer can explain this trend to implement network services such as multicast, mobility, and security at the application layer. On one hand, overlays creating basic topologies are usually limited in flexibility and scalability. On the other hand, overlays creating complex topologies require some form of application level addressing, routing, and naming mechanisms. Our aim is to design an efficient and robust addressing, routing, and naming infrastructure for these complex overlays. Our only assumption is that they are deployed over the Internet topology. Applications that use our middleware will be relieved from managing their own overlay topologies. Our infrastructure is based on the separation of the naming and the addressing planes and provides a convergence plane for the current heterogeneous Internet environment. To implement this property, we have designed a scalable distributed k-resilient name to address binding system. This paper describes the design of our overlay infrastructure and presents performance results concerning its routing scalability, its path inflation efficiency and its resilience to network dynamics.</EA>
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<ED>Autonomous system; Scalability; Distributed application; Internet; Implementation; Computer network; Telecommunication services; Network service; Multicast; Information dissemination; Safety; Flexibility; Addressing; Routing; Middleware; Performance evaluation; Resilience; Data broadcast</ED>
<SD>Sistema autónomo; Estensibilidad; Aplicación distribuida; Internet; Implementación; Red informática; Servicio de red; Multidestinatario; Difusión información; Seguridad; Flexibilidad; Direccionamiento; Enrutamiento; Logicial personalizado; Evaluación prestación; Resiliencia; Difusion dato</SD>
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<ID>07-0055680</ID>
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