Four-wave mixing reduction technique based on smart filter approach

Bit error rate; Electric power transmission; Fiber optic networks; Light transmission; Multiplexing equipment; Wavelength division multiplexing; Channel spacings; Conventional systems; Filter approach; Filter techniques; Optical transmission systems; Reduction techniques; smart filter; Wavelength-di...

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Main Authors: Abd H.J., Al-Mansoori M.H., Din N.M., Abdullah F., Fadhil H.A.
Other Authors: 55548856600
Format: Article
Published: Taylor and Francis Ltd. 2023
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Institution: Universiti Tenaga Nasional
id my.uniten.dspace-22325
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spelling my.uniten.dspace-223252023-05-29T14:00:13Z Four-wave mixing reduction technique based on smart filter approach Abd H.J. Al-Mansoori M.H. Din N.M. Abdullah F. Fadhil H.A. 55548856600 6505891021 9335429400 56613644500 25639445900 Bit error rate; Electric power transmission; Fiber optic networks; Light transmission; Multiplexing equipment; Wavelength division multiplexing; Channel spacings; Conventional systems; Filter approach; Filter techniques; Optical transmission systems; Reduction techniques; smart filter; Wavelength-division multiplexing system; Four wave mixing This paper proposed a new technique to suppress the four-wave mixing (FWM) effect by using a smart filter technique. The behaviour of FWM and the performance of wavelength division multiplexing systems with 4 and 16 channels were simulated in the presence of the proposed technique. The simulation was also performed under different parameters such as input power, number of channels and channel spacing. The FWM power drastically decreases by 12 and 19 dB for the 4 and 16 channels, respectively, when the smart filter is used as compared with the conventional system. In terms of system performance, the suggested approach for 4 and 16 channels at the first channel offers low bit error rate (BER) values of 3.23 � 10-23 and 1.7 � 10-21, respectively. The smart filter with the channel spacing variation for the 4-channel system subsequently improved the BER value at the fourth channel. Results confirm that the smart filter approach is an active solution that can suppress the FWM effect in optical transmission systems. � 2014 Taylor and Francis. Final 2023-05-29T06:00:13Z 2023-05-29T06:00:13Z 2015 Article 10.1080/00207217.2014.963890 2-s2.0-84925053422 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84925053422&doi=10.1080%2f00207217.2014.963890&partnerID=40&md5=dccbe6e6ee9d81cf6443bd2410c2b516 https://irepository.uniten.edu.my/handle/123456789/22325 102 6 1056 1070 Taylor and Francis Ltd. Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
description Bit error rate; Electric power transmission; Fiber optic networks; Light transmission; Multiplexing equipment; Wavelength division multiplexing; Channel spacings; Conventional systems; Filter approach; Filter techniques; Optical transmission systems; Reduction techniques; smart filter; Wavelength-division multiplexing system; Four wave mixing
author2 55548856600
author_facet 55548856600
Abd H.J.
Al-Mansoori M.H.
Din N.M.
Abdullah F.
Fadhil H.A.
format Article
author Abd H.J.
Al-Mansoori M.H.
Din N.M.
Abdullah F.
Fadhil H.A.
spellingShingle Abd H.J.
Al-Mansoori M.H.
Din N.M.
Abdullah F.
Fadhil H.A.
Four-wave mixing reduction technique based on smart filter approach
author_sort Abd H.J.
title Four-wave mixing reduction technique based on smart filter approach
title_short Four-wave mixing reduction technique based on smart filter approach
title_full Four-wave mixing reduction technique based on smart filter approach
title_fullStr Four-wave mixing reduction technique based on smart filter approach
title_full_unstemmed Four-wave mixing reduction technique based on smart filter approach
title_sort four-wave mixing reduction technique based on smart filter approach
publisher Taylor and Francis Ltd.
publishDate 2023
_version_ 1806425772329533440