The Experts below are selected from a list of 24 Experts worldwide ranked by ideXlab platform
Victor Lopez - One of the best experts on this subject based on the ideXlab platform.
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A Bayesian decision theory approach for the techno-economic analysis of an all-optical router (extended version)
Computer Networks, 2008Co-Authors: Victor Lopez, José Alberto Hernández, Javier Aracil, Juan P. Fernandez Palacios, íscar González De DiosAbstract:Typically, core networks are provided with both optical and electronic physical layers. However, the interaction between the two layers is at present limited, since most of the traditional transport functionalities, such as traffic engineering, switching and restoration, are carried in the IP/MPLS layer. In the light of this, the research community has paid little attention to the potential benefits of the interaction between layers, multilayer capabilities, on attempts to improve quality of service control. This paper shows when to move Incoming Label switched paths (LSPs) between layers based on a multilayer mechanism that trades off a QoS metric, such as end-to-end delay, and techno-economic aspects. Such a mechanism follows the Bayesian decision theory, and is tested with a set of representative case scenarios.
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ONDM - A Bayesian decision theory approach for the techno-economic analysis of an all-optical router
Optical Network Design and Modeling, 1Co-Authors: Victor Lopez, José Alberto Hernández, Javier Aracil, Juan P. Fernandez Palacios, Oscar Gonzalez De DiosAbstract:Typically, core networks are provided with both optical and electronic physical layers. However, the interaction between the two layers is at present limited, since most of the traditional transport functionalities, such as traffic engineering, switching and restoration, are carried in the IP/MPLS layer. In this light, the research community has paid little attention to the potential benefits of the interaction between layers, multilayer capabilities, on attempts to improve the Quality of Service control. This work shows when to move Incoming Label Switched Paths (LSPs) between layers based on a multilayer mechanism that trades off a QoS metric, such as end-to-end delay, and techno-economic aspects. Such mechanism follows the Bayesian decision theory, and is tested with a set of representative case scenarios.
Oscar Gonzalez De Dios - One of the best experts on this subject based on the ideXlab platform.
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ONDM - A Bayesian decision theory approach for the techno-economic analysis of an all-optical router
Optical Network Design and Modeling, 1Co-Authors: Victor Lopez, José Alberto Hernández, Javier Aracil, Juan P. Fernandez Palacios, Oscar Gonzalez De DiosAbstract:Typically, core networks are provided with both optical and electronic physical layers. However, the interaction between the two layers is at present limited, since most of the traditional transport functionalities, such as traffic engineering, switching and restoration, are carried in the IP/MPLS layer. In this light, the research community has paid little attention to the potential benefits of the interaction between layers, multilayer capabilities, on attempts to improve the Quality of Service control. This work shows when to move Incoming Label Switched Paths (LSPs) between layers based on a multilayer mechanism that trades off a QoS metric, such as end-to-end delay, and techno-economic aspects. Such mechanism follows the Bayesian decision theory, and is tested with a set of representative case scenarios.
íscar González De Dios - One of the best experts on this subject based on the ideXlab platform.
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A Bayesian decision theory approach for the techno-economic analysis of an all-optical router (extended version)
Computer Networks, 2008Co-Authors: Victor Lopez, José Alberto Hernández, Javier Aracil, Juan P. Fernandez Palacios, íscar González De DiosAbstract:Typically, core networks are provided with both optical and electronic physical layers. However, the interaction between the two layers is at present limited, since most of the traditional transport functionalities, such as traffic engineering, switching and restoration, are carried in the IP/MPLS layer. In the light of this, the research community has paid little attention to the potential benefits of the interaction between layers, multilayer capabilities, on attempts to improve quality of service control. This paper shows when to move Incoming Label switched paths (LSPs) between layers based on a multilayer mechanism that trades off a QoS metric, such as end-to-end delay, and techno-economic aspects. Such a mechanism follows the Bayesian decision theory, and is tested with a set of representative case scenarios.
Juan P. Fernandez Palacios - One of the best experts on this subject based on the ideXlab platform.
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A Bayesian decision theory approach for the techno-economic analysis of an all-optical router (extended version)
Computer Networks, 2008Co-Authors: Victor Lopez, José Alberto Hernández, Javier Aracil, Juan P. Fernandez Palacios, íscar González De DiosAbstract:Typically, core networks are provided with both optical and electronic physical layers. However, the interaction between the two layers is at present limited, since most of the traditional transport functionalities, such as traffic engineering, switching and restoration, are carried in the IP/MPLS layer. In the light of this, the research community has paid little attention to the potential benefits of the interaction between layers, multilayer capabilities, on attempts to improve quality of service control. This paper shows when to move Incoming Label switched paths (LSPs) between layers based on a multilayer mechanism that trades off a QoS metric, such as end-to-end delay, and techno-economic aspects. Such a mechanism follows the Bayesian decision theory, and is tested with a set of representative case scenarios.
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ONDM - A Bayesian decision theory approach for the techno-economic analysis of an all-optical router
Optical Network Design and Modeling, 1Co-Authors: Victor Lopez, José Alberto Hernández, Javier Aracil, Juan P. Fernandez Palacios, Oscar Gonzalez De DiosAbstract:Typically, core networks are provided with both optical and electronic physical layers. However, the interaction between the two layers is at present limited, since most of the traditional transport functionalities, such as traffic engineering, switching and restoration, are carried in the IP/MPLS layer. In this light, the research community has paid little attention to the potential benefits of the interaction between layers, multilayer capabilities, on attempts to improve the Quality of Service control. This work shows when to move Incoming Label Switched Paths (LSPs) between layers based on a multilayer mechanism that trades off a QoS metric, such as end-to-end delay, and techno-economic aspects. Such mechanism follows the Bayesian decision theory, and is tested with a set of representative case scenarios.
Javier Aracil - One of the best experts on this subject based on the ideXlab platform.
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A Bayesian decision theory approach for the techno-economic analysis of an all-optical router (extended version)
Computer Networks, 2008Co-Authors: Victor Lopez, José Alberto Hernández, Javier Aracil, Juan P. Fernandez Palacios, íscar González De DiosAbstract:Typically, core networks are provided with both optical and electronic physical layers. However, the interaction between the two layers is at present limited, since most of the traditional transport functionalities, such as traffic engineering, switching and restoration, are carried in the IP/MPLS layer. In the light of this, the research community has paid little attention to the potential benefits of the interaction between layers, multilayer capabilities, on attempts to improve quality of service control. This paper shows when to move Incoming Label switched paths (LSPs) between layers based on a multilayer mechanism that trades off a QoS metric, such as end-to-end delay, and techno-economic aspects. Such a mechanism follows the Bayesian decision theory, and is tested with a set of representative case scenarios.
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ONDM - A Bayesian decision theory approach for the techno-economic analysis of an all-optical router
Optical Network Design and Modeling, 1Co-Authors: Victor Lopez, José Alberto Hernández, Javier Aracil, Juan P. Fernandez Palacios, Oscar Gonzalez De DiosAbstract:Typically, core networks are provided with both optical and electronic physical layers. However, the interaction between the two layers is at present limited, since most of the traditional transport functionalities, such as traffic engineering, switching and restoration, are carried in the IP/MPLS layer. In this light, the research community has paid little attention to the potential benefits of the interaction between layers, multilayer capabilities, on attempts to improve the Quality of Service control. This work shows when to move Incoming Label Switched Paths (LSPs) between layers based on a multilayer mechanism that trades off a QoS metric, such as end-to-end delay, and techno-economic aspects. Such mechanism follows the Bayesian decision theory, and is tested with a set of representative case scenarios.
