"Praha" . . . "Agentura Action M" . "Optical Packet Switch Development and Switching Technique Analysis"@en . . "[FE2AB6347CBA]" . . "Zv\u00E1novec, Stanislav" . "3"^^ . "\u0160koda, Pavel" . . "2012-10-25+02:00"^^ . . "Optical Packet Switch Development and Switching Technique Analysis"@en . . "Komanec, Mat\u011Bj" . . "21230" . . "RIV/68407700:21230/12:00196875!RIV13-TA0-21230___" . "RIV/68407700:21230/12:00196875" . . . "24th Conference and Exhibition on Optical Communications 2012 Proceedings" . . . "Chalcogenite fiber; fiber tapers; four-wave mixing; nonlinear optics; optical packet switching; wavelength routing"@en . . . "4"^^ . . "156746" . . "Future of data networks indisputably stands in all-optical processing, components and communication. Ultrafast data transfers of enormous capacity head towards IP-routed optical packet networks. This paper focuses on the routing process and the switching matrix with respect to novel modulation formats appearing in optical data communication. Four-wave mixing switching technique is evaluated to achieve packet switching insensitive to data speed, modulation format and state of polarization. Best up to date peak-to-peak ratio for the routed signal in respect to the original was achieved exploiting the four-wave mixing effect in a highly-nonlinear fiber, with 12dB peak-to-peak ratio, whereas obtaining flat conversion profile from 1535 to 1565nm. Application of chalcogenide fibers promises even better results according to simulation models and achieved chalcogenide taper parameters. Frequency plan is presented proposing two variants with more possible outputs in a high-cost model and vice-versa."@en . . "Optical Packet Switch Development and Switching Technique Analysis" . "978-80-86742-36-6" . . . "P(TA01011105)" . "Future of data networks indisputably stands in all-optical processing, components and communication. Ultrafast data transfers of enormous capacity head towards IP-routed optical packet networks. This paper focuses on the routing process and the switching matrix with respect to novel modulation formats appearing in optical data communication. Four-wave mixing switching technique is evaluated to achieve packet switching insensitive to data speed, modulation format and state of polarization. Best up to date peak-to-peak ratio for the routed signal in respect to the original was achieved exploiting the four-wave mixing effect in a highly-nonlinear fiber, with 12dB peak-to-peak ratio, whereas obtaining flat conversion profile from 1535 to 1565nm. Application of chalcogenide fibers promises even better results according to simulation models and achieved chalcogenide taper parameters. Frequency plan is presented proposing two variants with more possible outputs in a high-cost model and vice-versa." . "3"^^ . . "Praha" . "Optical Packet Switch Development and Switching Technique Analysis" . .