Evaluating OADM network simulation and an overview based metropolitan application

Using optical add–drop multiplexer/remover multiplexer (OADM), it is possible to add or remove wavelengths and change or route them through the various nodes and networks. At this moment, key problems in add–drop multiplexer (ADM) are the bandwidth, modulation format, and reuse wavelength. In this a...

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Autores principales:	Essa Essa Ibrahim, Asker Mshari A., Sedeeq Fidan T.
Formato:	article
Lenguaje:	EN
Publicado:	De Gruyter 2021
Materias:	simulation adm rz metro network soliton fiber Science Q Electronic computers. Computer science QA75.5-76.95
Acceso en línea:	https://doaj.org/article/dbffab5388c64f7ba11db707062c1b59
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spelling	oai:doaj.org-article:dbffab5388c64f7ba11db707062c1b592021-12-05T14:10:51ZEvaluating OADM network simulation and an overview based metropolitan application2191-026X10.1515/jisys-2021-0194https://doaj.org/article/dbffab5388c64f7ba11db707062c1b592021-11-01T00:00:00Zhttps://doi.org/10.1515/jisys-2021-0194https://doaj.org/toc/2191-026XUsing optical add–drop multiplexer/remover multiplexer (OADM), it is possible to add or remove wavelengths and change or route them through the various nodes and networks. At this moment, key problems in add–drop multiplexer (ADM) are the bandwidth, modulation format, and reuse wavelength. In this article, the Optisystem software simulation is used as a platform to design, test, and verify the method applied to the current work; the OADM is proposed based on the metro network to get distribution between nodes over a transmission link; OADM analysis was presented with four channels (193.1, 193.2, 193.3, and 193.4 THz) at total bandwidth of 1.6 Tb/s, none-return-to-zero (NRZ), and return to zero coding types. Experiment one shows that the average output power is −17.997 dBm, the average drop power is −17.997 dBm, and the average add power is −18.338 dBm, the average gain is −0.0429 dB, the average noise figure is 0 dB, the average power input signal is 10.679 dBm, the average of power output signal is 10.633 dBm, and the average output optical signal-to-noise ratio (OSNR) is 0 dB, However, the second experiment shows that the average output power is −24.238 dBm, the average drop power is −24.288 dBm, and the average add power is −24.753 dBm, the average gain is −0.0417 dB, the average noise figure is 0 dB, average power input signal is 7.691 dBm, average of power output signal is 7.677 dBm, and the average output OSNR 0 dB. The system supports four input channels, four add channels, four output channels, and four drop channels. The results are acceptable after three spans of Solitons fiber with 600 km length, 200 km for each span. Nonetheless, it is believed that it is well justified to adopt these schemes in the current optical network with a low cost for overall expenditure.Essa Essa IbrahimAsker Mshari A.Sedeeq Fidan T.De Gruyterarticlesimulationadmrzmetro networksoliton fiberScienceQElectronic computers. Computer scienceQA75.5-76.95ENJournal of Intelligent Systems, Vol 31, Iss 1, Pp 27-39 (2021)
institution	DOAJ
collection	DOAJ
language	EN
topic	simulation adm rz metro network soliton fiber Science Q Electronic computers. Computer science QA75.5-76.95
spellingShingle	simulation adm rz metro network soliton fiber Science Q Electronic computers. Computer science QA75.5-76.95 Essa Essa Ibrahim Asker Mshari A. Sedeeq Fidan T. Evaluating OADM network simulation and an overview based metropolitan application
description	Using optical add–drop multiplexer/remover multiplexer (OADM), it is possible to add or remove wavelengths and change or route them through the various nodes and networks. At this moment, key problems in add–drop multiplexer (ADM) are the bandwidth, modulation format, and reuse wavelength. In this article, the Optisystem software simulation is used as a platform to design, test, and verify the method applied to the current work; the OADM is proposed based on the metro network to get distribution between nodes over a transmission link; OADM analysis was presented with four channels (193.1, 193.2, 193.3, and 193.4 THz) at total bandwidth of 1.6 Tb/s, none-return-to-zero (NRZ), and return to zero coding types. Experiment one shows that the average output power is −17.997 dBm, the average drop power is −17.997 dBm, and the average add power is −18.338 dBm, the average gain is −0.0429 dB, the average noise figure is 0 dB, the average power input signal is 10.679 dBm, the average of power output signal is 10.633 dBm, and the average output optical signal-to-noise ratio (OSNR) is 0 dB, However, the second experiment shows that the average output power is −24.238 dBm, the average drop power is −24.288 dBm, and the average add power is −24.753 dBm, the average gain is −0.0417 dB, the average noise figure is 0 dB, average power input signal is 7.691 dBm, average of power output signal is 7.677 dBm, and the average output OSNR 0 dB. The system supports four input channels, four add channels, four output channels, and four drop channels. The results are acceptable after three spans of Solitons fiber with 600 km length, 200 km for each span. Nonetheless, it is believed that it is well justified to adopt these schemes in the current optical network with a low cost for overall expenditure.
format	article
author	Essa Essa Ibrahim Asker Mshari A. Sedeeq Fidan T.
author_facet	Essa Essa Ibrahim Asker Mshari A. Sedeeq Fidan T.
author_sort	Essa Essa Ibrahim
title	Evaluating OADM network simulation and an overview based metropolitan application
title_short	Evaluating OADM network simulation and an overview based metropolitan application
title_full	Evaluating OADM network simulation and an overview based metropolitan application
title_fullStr	Evaluating OADM network simulation and an overview based metropolitan application
title_full_unstemmed	Evaluating OADM network simulation and an overview based metropolitan application
title_sort	evaluating oadm network simulation and an overview based metropolitan application
publisher	De Gruyter
publishDate	2021
url	https://doaj.org/article/dbffab5388c64f7ba11db707062c1b59
work_keys_str_mv	AT essaessaibrahim evaluatingoadmnetworksimulationandanoverviewbasedmetropolitanapplication AT askermsharia evaluatingoadmnetworksimulationandanoverviewbasedmetropolitanapplication AT sedeeqfidant evaluatingoadmnetworksimulationandanoverviewbasedmetropolitanapplication
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Evaluating OADM network simulation and an overview based metropolitan application

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