A new SLM-UFMC model for universal filtered multi-carrier to reduce cubic metric and peak to average power ratio in 5G technology

A new SLM-UFMC model for universal filtered multi-carrier to reduce cubic metric and peak to average power ratio in 5G technology

The new generation of wireless communication systems has adopted different waveforms. The universal filtered multicarrier is one of the adopted candidates that has symmetry with various numerology designs. However, the high peak to average power ratio is one of the major limitations faced by univers...

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Main Authors: Shawqi F.S., Audah L., Mostafa S.A., Gunasekaran S.S., Baz A., Hammoodi A.T., Alhakami H., Hassan M.H., Jubair M.A., Alhakami W.
Other Authors: 57217630179
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Published: MDPI AG 2023
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spelling my.uniten.dspace-254582023-05-29T16:09:39Z A new SLM-UFMC model for universal filtered multi-carrier to reduce cubic metric and peak to average power ratio in 5G technology Shawqi F.S. Audah L. Mostafa S.A. Gunasekaran S.S. Baz A. Hammoodi A.T. Alhakami H. Hassan M.H. Jubair M.A. Alhakami W. 57217630179 54683430400 37036085800 55652730500 55918811400 57202873218 57203958756 57193264476 57203690245 56004873500 The new generation of wireless communication systems has adopted different waveforms. The universal filtered multicarrier is one of the adopted candidates that has symmetry with various numerology designs. However, the high peak to average power ratio is one of the major limitations faced by universal filter multicarrier (UFMC) designers. Moreover, recent studies utilize cubic metric along with the peak to average power ratio (PAPR) to show the power back-off effect of the signal in which the PAPR metric identifies the maximum peak and the cubic metric (CM) identifies the Out of Band emission and In-Band distortion. Most of the current solutions, such as amplitude clipping, tone reservation, and active constellation extension, decrease the PAPR but cause degradation to the bit error rate. Selected mapping is one of the promising techniques that is recently used to solve the PAPR and CM problems without causing bit error rate (BER) degradation. In this paper, the selected mapping (SLM) is integrated with UFMC to reduce the PAPR and CM without affecting the BER of 5G networks. The SLM-UFMC solution model is simulated by MATLAB and the results show that the SLM-UFMC model presents better PAPR and CM performance without BER degradation. The PAPR has been decreased to 1.5 dB with respect to eight-phase rotation vectors and the CM decreased to 1.25 dB compared to the conventional UFMC. � 2020 by the authors. Final 2023-05-29T08:09:39Z 2023-05-29T08:09:39Z 2020 Article 10.3390/SYM12060909 2-s2.0-85087435965 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85087435965&doi=10.3390%2fSYM12060909&partnerID=40&md5=585dece078b0e9492d9143dcc648cecc https://irepository.uniten.edu.my/handle/123456789/25458 12 6 909 All Open Access, Gold MDPI AG 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 The new generation of wireless communication systems has adopted different waveforms. The universal filtered multicarrier is one of the adopted candidates that has symmetry with various numerology designs. However, the high peak to average power ratio is one of the major limitations faced by universal filter multicarrier (UFMC) designers. Moreover, recent studies utilize cubic metric along with the peak to average power ratio (PAPR) to show the power back-off effect of the signal in which the PAPR metric identifies the maximum peak and the cubic metric (CM) identifies the Out of Band emission and In-Band distortion. Most of the current solutions, such as amplitude clipping, tone reservation, and active constellation extension, decrease the PAPR but cause degradation to the bit error rate. Selected mapping is one of the promising techniques that is recently used to solve the PAPR and CM problems without causing bit error rate (BER) degradation. In this paper, the selected mapping (SLM) is integrated with UFMC to reduce the PAPR and CM without affecting the BER of 5G networks. The SLM-UFMC solution model is simulated by MATLAB and the results show that the SLM-UFMC model presents better PAPR and CM performance without BER degradation. The PAPR has been decreased to 1.5 dB with respect to eight-phase rotation vectors and the CM decreased to 1.25 dB compared to the conventional UFMC. � 2020 by the authors.
author2 57217630179
author_facet 57217630179
Shawqi F.S.
Audah L.
Mostafa S.A.
Gunasekaran S.S.
Baz A.
Hammoodi A.T.
Alhakami H.
Hassan M.H.
Jubair M.A.
Alhakami W.
format Article
author Shawqi F.S.
Audah L.
Mostafa S.A.
Gunasekaran S.S.
Baz A.
Hammoodi A.T.
Alhakami H.
Hassan M.H.
Jubair M.A.
Alhakami W.
spellingShingle Shawqi F.S.
Audah L.
Mostafa S.A.
Gunasekaran S.S.
Baz A.
Hammoodi A.T.
Alhakami H.
Hassan M.H.
Jubair M.A.
Alhakami W.
A new SLM-UFMC model for universal filtered multi-carrier to reduce cubic metric and peak to average power ratio in 5G technology
author_sort Shawqi F.S.
title A new SLM-UFMC model for universal filtered multi-carrier to reduce cubic metric and peak to average power ratio in 5G technology
title_short A new SLM-UFMC model for universal filtered multi-carrier to reduce cubic metric and peak to average power ratio in 5G technology
title_full A new SLM-UFMC model for universal filtered multi-carrier to reduce cubic metric and peak to average power ratio in 5G technology
title_fullStr A new SLM-UFMC model for universal filtered multi-carrier to reduce cubic metric and peak to average power ratio in 5G technology
title_full_unstemmed A new SLM-UFMC model for universal filtered multi-carrier to reduce cubic metric and peak to average power ratio in 5G technology
title_sort new slm-ufmc model for universal filtered multi-carrier to reduce cubic metric and peak to average power ratio in 5g technology
publisher MDPI AG
publishDate 2023
_version_ 1806424288448741376

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