The Experts below are selected from a list of 807 Experts worldwide ranked by ideXlab platform
K Goto - One of the best experts on this subject based on the ideXlab platform.
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an experimental study of transmission distance limitation for the Submarine Cable System using c band edfa repeaters and a demonstration of 96 wdm 10 gbit s over 12 000 km transmission having sufficient engineering margin
Optical Fiber Communication Conference, 2003Co-Authors: Hidenori Taga, S Nakagawa, K GotoAbstract:We have experimentally evaluated transmission distance and capacity for the Submarine Cable System based on C-band EDFA repeater. About 1Tbit/s capacity is commercially realizable for the distance over 12,000km using high-gain FEC.
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wdm Submarine Cable System designed for capacity upgrade
Electronics Letters, 1998Co-Authors: T Otani, T Kawazawa, E Shibano, T Miyakawa, K GotoAbstract:80 Gbit/s (5.3 Gbit/s 16 WDM) signal transmission has been successfully achieved by using installed 1130 km long Submarine Cable. The measured value of the Q factor is 17.8 dB, on average. This System is designed for both single channel transmission and future WDM transmission. These results will be useful for System design considering future capacity upgrading by WDM technology.
D Simeonidou - One of the best experts on this subject based on the ideXlab platform.
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5 gbit s transmission over 15 200 km on a subsegment of the tat 12 transatlantic Submarine Cable System
Optical Fiber Communication Conference, 1996Co-Authors: D Simeonidou, K P Jones, A Rey, M S Chaudhry, P A Farrugia, G G Windus, N H Taylor, P R MarkelAbstract:Summary form only given. Transmission experiments performed on a 3800-km subsegment of the TAT-12 optically amplified Submarine Cable System have recently shown the means for 5-Gbit/s transmission over a total concatenated fiber length of 15,200 km. Designed to connect Europe and America, TAT-12 will be the first installed transatlantic optically amplified Submarine Cable System.
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straight line 4 2 5 gbit s wdm transmission over 2600 km on a manufactured optically amplified Submarine Cable System with 95 km repeater spacing
Towards Terabit Transmission IEE Colloquium on, 1995Co-Authors: D Simeonidou, K P Jones, M S Chaudhry, N H Taylor, P R MorkelAbstract:Single wavelength optically amplified Submarine System technology has rapidly moved towards maturity to meet requirements for high capacity long-haul undersea Systems. The developments of wavelength division multiplexing (WDM) technologies for Submarine applications will enable increased System capacity and enhanced network topologies for the provision of traffic between multiple landing points. A number of technical issues have to be addressed in the development of long-haul WDM transmission including the effect of a restricted concatenated amplifier gain bandwidth and also the accumulation of multi-channel non-linear interactions such as four-wave mixing and cross-phase modulation. We report the results of error-free 4×2.5 Gbit/s straight line transmission over 2600 km on a manufactured optically amplified Submarine Cable System with an average repeater spacing of 95 km. In these experiments channel power pre-emphasis was used to limit the signal-noise-ratio (SNR) imbalance resulting from the restricted concatenated amplifier bandwidth. Additionally unequal channel wavelength spacing gave a reduction in the effects of four-wave mixing products. System simulations confirm the experimental results indicating their applicability in predicting the performance of future high capacity WDM Submarine links. These results show the potential for provision of economic System solutions for future Submarine Cable networks. (5 pages)
P R Markel - One of the best experts on this subject based on the ideXlab platform.
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5 gbit s transmission over 15 200 km on a subsegment of the tat 12 transatlantic Submarine Cable System
Optical Fiber Communication Conference, 1996Co-Authors: D Simeonidou, K P Jones, A Rey, M S Chaudhry, P A Farrugia, G G Windus, N H Taylor, P R MarkelAbstract:Summary form only given. Transmission experiments performed on a 3800-km subsegment of the TAT-12 optically amplified Submarine Cable System have recently shown the means for 5-Gbit/s transmission over a total concatenated fiber length of 15,200 km. Designed to connect Europe and America, TAT-12 will be the first installed transatlantic optically amplified Submarine Cable System.
K P Jones - One of the best experts on this subject based on the ideXlab platform.
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5 gbit s transmission over 15 200 km on a subsegment of the tat 12 transatlantic Submarine Cable System
Optical Fiber Communication Conference, 1996Co-Authors: D Simeonidou, K P Jones, A Rey, M S Chaudhry, P A Farrugia, G G Windus, N H Taylor, P R MarkelAbstract:Summary form only given. Transmission experiments performed on a 3800-km subsegment of the TAT-12 optically amplified Submarine Cable System have recently shown the means for 5-Gbit/s transmission over a total concatenated fiber length of 15,200 km. Designed to connect Europe and America, TAT-12 will be the first installed transatlantic optically amplified Submarine Cable System.
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straight line 4 2 5 gbit s wdm transmission over 2600 km on a manufactured optically amplified Submarine Cable System with 95 km repeater spacing
Towards Terabit Transmission IEE Colloquium on, 1995Co-Authors: D Simeonidou, K P Jones, M S Chaudhry, N H Taylor, P R MorkelAbstract:Single wavelength optically amplified Submarine System technology has rapidly moved towards maturity to meet requirements for high capacity long-haul undersea Systems. The developments of wavelength division multiplexing (WDM) technologies for Submarine applications will enable increased System capacity and enhanced network topologies for the provision of traffic between multiple landing points. A number of technical issues have to be addressed in the development of long-haul WDM transmission including the effect of a restricted concatenated amplifier gain bandwidth and also the accumulation of multi-channel non-linear interactions such as four-wave mixing and cross-phase modulation. We report the results of error-free 4×2.5 Gbit/s straight line transmission over 2600 km on a manufactured optically amplified Submarine Cable System with an average repeater spacing of 95 km. In these experiments channel power pre-emphasis was used to limit the signal-noise-ratio (SNR) imbalance resulting from the restricted concatenated amplifier bandwidth. Additionally unequal channel wavelength spacing gave a reduction in the effects of four-wave mixing products. System simulations confirm the experimental results indicating their applicability in predicting the performance of future high capacity WDM Submarine links. These results show the potential for provision of economic System solutions for future Submarine Cable networks. (5 pages)
M S Chaudhry - One of the best experts on this subject based on the ideXlab platform.
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5 gbit s transmission over 15 200 km on a subsegment of the tat 12 transatlantic Submarine Cable System
Optical Fiber Communication Conference, 1996Co-Authors: D Simeonidou, K P Jones, A Rey, M S Chaudhry, P A Farrugia, G G Windus, N H Taylor, P R MarkelAbstract:Summary form only given. Transmission experiments performed on a 3800-km subsegment of the TAT-12 optically amplified Submarine Cable System have recently shown the means for 5-Gbit/s transmission over a total concatenated fiber length of 15,200 km. Designed to connect Europe and America, TAT-12 will be the first installed transatlantic optically amplified Submarine Cable System.
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straight line 4 2 5 gbit s wdm transmission over 2600 km on a manufactured optically amplified Submarine Cable System with 95 km repeater spacing
Towards Terabit Transmission IEE Colloquium on, 1995Co-Authors: D Simeonidou, K P Jones, M S Chaudhry, N H Taylor, P R MorkelAbstract:Single wavelength optically amplified Submarine System technology has rapidly moved towards maturity to meet requirements for high capacity long-haul undersea Systems. The developments of wavelength division multiplexing (WDM) technologies for Submarine applications will enable increased System capacity and enhanced network topologies for the provision of traffic between multiple landing points. A number of technical issues have to be addressed in the development of long-haul WDM transmission including the effect of a restricted concatenated amplifier gain bandwidth and also the accumulation of multi-channel non-linear interactions such as four-wave mixing and cross-phase modulation. We report the results of error-free 4×2.5 Gbit/s straight line transmission over 2600 km on a manufactured optically amplified Submarine Cable System with an average repeater spacing of 95 km. In these experiments channel power pre-emphasis was used to limit the signal-noise-ratio (SNR) imbalance resulting from the restricted concatenated amplifier bandwidth. Additionally unequal channel wavelength spacing gave a reduction in the effects of four-wave mixing products. System simulations confirm the experimental results indicating their applicability in predicting the performance of future high capacity WDM Submarine links. These results show the potential for provision of economic System solutions for future Submarine Cable networks. (5 pages)
