The Experts below are selected from a list of 43761 Experts worldwide ranked by ideXlab platform
Leonid G. Kazovsky - One of the best experts on this subject based on the ideXlab platform.
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Experimental demonstration of protection mechanism in OBT Ring Network
OFC/NFOEC 2007 - Optical Fiber Communication and the National Fiber Optic Engineers Conference 2007, 2007Co-Authors: Jongdeog Kim, Ching Fong Su, Richard Rabbat, Saurav Das, June-suh Cho, Leonid G. Kazovsky, Takeo HamadaAbstract:The optical burst transport Network is a novel WDM Ring Network architecture and protocol. In this paper, we investigate Network protection of OBT Network. The result shows fast link restoration at the OBT Ring Network.
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hornet a packet over wdm multiple access metropolitan area Ring Network
IEEE Journal on Selected Areas in Communications, 2000Co-Authors: K Shrikhande, Ian M White, D Wonglumsom, S M Gemelos, M S Rogge, Y Fukashiro, M Avenarius, Leonid G. KazovskyAbstract:Current metropolitan area Networks (MANs) based on the SONET transport are not developing at the rate required to support the phenomenal increase in data traffic. To address the needs of future MANs, the Optical Communications Research Laboratory at Stanford University and Sprint Advanced Technology Laboratories are building HORNET (Hybrid Optoelectronic Ring Network). HORNET has a multiple access architecture, in which nodes access any WDM channel using a novel media access control protocol and fast tunable laser transmitters. HORNET transports data packets directly over the WDM Ring, eliminating the SONET transport. This paper presents the HORNET architecture, the node design consisting of novel packet-over-WDM components, and the experimental testbed with results.
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hornet a packet over wdm multiple access metropolitan area Ring Network
IEEE Journal on Selected Areas in Communications, 2000Co-Authors: K Shrikhande, Ian M White, D Wonglumsom, S M Gemelos, M S Rogge, Y Fukashiro, M Avenarius, Leonid G. KazovskyAbstract:Current metropolitan area Networks (MANs) based on the SONET transport are not developing at the rate required to support the phenomenal increase in data traffic. To address the needs of future MANs, the Optical Communications Research Laboratory at Stanford University and Sprint Advanced Technology Laboratories are building HORNET (Hybrid Optoelectronic Ring Network). HORNET has a multiple access architecture, in which nodes access any WDM channel using a novel media access control protocol and fast tunable laser transmitters. HORNET transports data packets directly over the WDM Ring, eliminating the SONET transport. This paper presents the HORNET architecture, the node design consisting of novel packet-over-WDM components, and the experimental testbed with results.
K Shrikhande - One of the best experts on this subject based on the ideXlab platform.
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hornet a packet over wdm multiple access metropolitan area Ring Network
IEEE Journal on Selected Areas in Communications, 2000Co-Authors: K Shrikhande, Ian M White, D Wonglumsom, S M Gemelos, M S Rogge, Y Fukashiro, M Avenarius, Leonid G. KazovskyAbstract:Current metropolitan area Networks (MANs) based on the SONET transport are not developing at the rate required to support the phenomenal increase in data traffic. To address the needs of future MANs, the Optical Communications Research Laboratory at Stanford University and Sprint Advanced Technology Laboratories are building HORNET (Hybrid Optoelectronic Ring Network). HORNET has a multiple access architecture, in which nodes access any WDM channel using a novel media access control protocol and fast tunable laser transmitters. HORNET transports data packets directly over the WDM Ring, eliminating the SONET transport. This paper presents the HORNET architecture, the node design consisting of novel packet-over-WDM components, and the experimental testbed with results.
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hornet a packet over wdm multiple access metropolitan area Ring Network
IEEE Journal on Selected Areas in Communications, 2000Co-Authors: K Shrikhande, Ian M White, D Wonglumsom, S M Gemelos, M S Rogge, Y Fukashiro, M Avenarius, Leonid G. KazovskyAbstract:Current metropolitan area Networks (MANs) based on the SONET transport are not developing at the rate required to support the phenomenal increase in data traffic. To address the needs of future MANs, the Optical Communications Research Laboratory at Stanford University and Sprint Advanced Technology Laboratories are building HORNET (Hybrid Optoelectronic Ring Network). HORNET has a multiple access architecture, in which nodes access any WDM channel using a novel media access control protocol and fast tunable laser transmitters. HORNET transports data packets directly over the WDM Ring, eliminating the SONET transport. This paper presents the HORNET architecture, the node design consisting of novel packet-over-WDM components, and the experimental testbed with results.
Jesper Nilausen - One of the best experts on this subject based on the ideXlab platform.
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Token Ring Network management: Performance management
International Journal of Network Management, 1995Co-Authors: Jesper NilausenAbstract:In this sixth (and final) article in the series on Token Ring Network Management we will discuss Performance Management, which is relevant for many parts of the distributed Token Ring environment
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Token Ring Network management: Change management
International Journal of Network Management, 1995Co-Authors: Jesper NilausenAbstract:This article, which is the fifth in the series on Token Ring Network Management, will discuss selected aspects of Change Management that are relevant in today's Token Ring Networking environment.
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Token Ring Network management: Configuration management
International Journal of Network Management, 1994Co-Authors: Jesper NilausenAbstract:In this fourth article in the series on Token Ring Network Management we will discuss selected areas of relevance to today's Token Ring Networking environment.
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Token Ring Network Management
International Journal of Network Management, 1993Co-Authors: Jesper NilausenAbstract:This article on Token Ring Network management describes general aspects of this important area and gives a brief introduction to the various disciplines, which will be covered in more detail in following articles.
Ian M White - One of the best experts on this subject based on the ideXlab platform.
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hornet a packet over wdm multiple access metropolitan area Ring Network
IEEE Journal on Selected Areas in Communications, 2000Co-Authors: K Shrikhande, Ian M White, D Wonglumsom, S M Gemelos, M S Rogge, Y Fukashiro, M Avenarius, Leonid G. KazovskyAbstract:Current metropolitan area Networks (MANs) based on the SONET transport are not developing at the rate required to support the phenomenal increase in data traffic. To address the needs of future MANs, the Optical Communications Research Laboratory at Stanford University and Sprint Advanced Technology Laboratories are building HORNET (Hybrid Optoelectronic Ring Network). HORNET has a multiple access architecture, in which nodes access any WDM channel using a novel media access control protocol and fast tunable laser transmitters. HORNET transports data packets directly over the WDM Ring, eliminating the SONET transport. This paper presents the HORNET architecture, the node design consisting of novel packet-over-WDM components, and the experimental testbed with results.
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hornet a packet over wdm multiple access metropolitan area Ring Network
IEEE Journal on Selected Areas in Communications, 2000Co-Authors: K Shrikhande, Ian M White, D Wonglumsom, S M Gemelos, M S Rogge, Y Fukashiro, M Avenarius, Leonid G. KazovskyAbstract:Current metropolitan area Networks (MANs) based on the SONET transport are not developing at the rate required to support the phenomenal increase in data traffic. To address the needs of future MANs, the Optical Communications Research Laboratory at Stanford University and Sprint Advanced Technology Laboratories are building HORNET (Hybrid Optoelectronic Ring Network). HORNET has a multiple access architecture, in which nodes access any WDM channel using a novel media access control protocol and fast tunable laser transmitters. HORNET transports data packets directly over the WDM Ring, eliminating the SONET transport. This paper presents the HORNET architecture, the node design consisting of novel packet-over-WDM components, and the experimental testbed with results.
M Avenarius - One of the best experts on this subject based on the ideXlab platform.
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hornet a packet over wdm multiple access metropolitan area Ring Network
IEEE Journal on Selected Areas in Communications, 2000Co-Authors: K Shrikhande, Ian M White, D Wonglumsom, S M Gemelos, M S Rogge, Y Fukashiro, M Avenarius, Leonid G. KazovskyAbstract:Current metropolitan area Networks (MANs) based on the SONET transport are not developing at the rate required to support the phenomenal increase in data traffic. To address the needs of future MANs, the Optical Communications Research Laboratory at Stanford University and Sprint Advanced Technology Laboratories are building HORNET (Hybrid Optoelectronic Ring Network). HORNET has a multiple access architecture, in which nodes access any WDM channel using a novel media access control protocol and fast tunable laser transmitters. HORNET transports data packets directly over the WDM Ring, eliminating the SONET transport. This paper presents the HORNET architecture, the node design consisting of novel packet-over-WDM components, and the experimental testbed with results.
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hornet a packet over wdm multiple access metropolitan area Ring Network
IEEE Journal on Selected Areas in Communications, 2000Co-Authors: K Shrikhande, Ian M White, D Wonglumsom, S M Gemelos, M S Rogge, Y Fukashiro, M Avenarius, Leonid G. KazovskyAbstract:Current metropolitan area Networks (MANs) based on the SONET transport are not developing at the rate required to support the phenomenal increase in data traffic. To address the needs of future MANs, the Optical Communications Research Laboratory at Stanford University and Sprint Advanced Technology Laboratories are building HORNET (Hybrid Optoelectronic Ring Network). HORNET has a multiple access architecture, in which nodes access any WDM channel using a novel media access control protocol and fast tunable laser transmitters. HORNET transports data packets directly over the WDM Ring, eliminating the SONET transport. This paper presents the HORNET architecture, the node design consisting of novel packet-over-WDM components, and the experimental testbed with results.
