Rain Effect to A 60 GHz Broadband Wireless System’s Performance: Study Case In Purwakarta

Rain Effect to A 60 GHz Broadband Wireless System’s Performance: Study Case In Purwakarta

Nowadays, world wide telecommunication researchers are developing 5G technology. One of most important key technology in 5G is Milimeter-Wave (mmWave). This study measure 60 GHz broadband wireless system performance because of it’s promising potentials. However, the use of these frequencies is quite...

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Bibliographic Details
Main Authors: Endah Setyowati, Galura Muhammad Suranegara, Ichwan Nul Ichsan
Format: Article
Language:Indonesian
Published: LPPM Institut Teknologi Telkom Purwokerto 2021-02-01
Series:Jurnal Infotel
Subjects:
broadband wireless system
millimeter-wave
5g
hujan
qam
ldpc
Online Access:https://ejournal.st3telkom.ac.id/index.php/infotel/article/view/556
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spelling doaj-a007dd2ef8314c5ca71cd70e601404992021-07-30T04:26:43ZindLPPM Institut Teknologi Telkom PurwokertoJurnal Infotel2085-36882460-09972021-02-01131131710.20895/infotel.v13i1.556556Rain Effect to A 60 GHz Broadband Wireless System’s Performance: Study Case In PurwakartaEndah Setyowati0Galura Muhammad Suranegara1Ichwan Nul Ichsan2Universitas Pendidikan IndonesiaUniversitas Pendidikan IndonesiaUniversitas Pendidikan IndonesiaNowadays, world wide telecommunication researchers are developing 5G technology. One of most important key technology in 5G is Milimeter-Wave (mmWave). This study measure 60 GHz broadband wireless system performance because of it’s promising potentials. However, the use of these frequencies is quite sensitive to rain that resulting an atenuation in the channel. Therefore, this study proposes two schemes to address the problem. The first scheme is the use of QAM modulation (Quadrature Amplitude Modulation) and the second scheme is an addition of LDPC (Low Density Parity Check) code techniques. From the results of this study, by using 4-QAM modulation and LDPC coderate 1/2, the broadband wireless system’s performance on the second scheme is better compared to the first scheme with 8.33 dB Signal to Noise Ratio (SNR) value to provides BER (Bit Error Rate) 10-4https://ejournal.st3telkom.ac.id/index.php/infotel/article/view/556broadband wireless systemmillimeter-wave5ghujanqamldpc
collection DOAJ
language Indonesian
format Article
sources DOAJ
author Endah Setyowati
Galura Muhammad Suranegara
Ichwan Nul Ichsan
spellingShingle Endah Setyowati
Galura Muhammad Suranegara
Ichwan Nul Ichsan
Rain Effect to A 60 GHz Broadband Wireless System’s Performance: Study Case In Purwakarta
Jurnal Infotel
broadband wireless system
millimeter-wave
5g
hujan
qam
ldpc
author_facet Endah Setyowati
Galura Muhammad Suranegara
Ichwan Nul Ichsan
author_sort Endah Setyowati
title Rain Effect to A 60 GHz Broadband Wireless System’s Performance: Study Case In Purwakarta
title_short Rain Effect to A 60 GHz Broadband Wireless System’s Performance: Study Case In Purwakarta
title_full Rain Effect to A 60 GHz Broadband Wireless System’s Performance: Study Case In Purwakarta
title_fullStr Rain Effect to A 60 GHz Broadband Wireless System’s Performance: Study Case In Purwakarta
title_full_unstemmed Rain Effect to A 60 GHz Broadband Wireless System’s Performance: Study Case In Purwakarta
title_sort rain effect to a 60 ghz broadband wireless system’s performance: study case in purwakarta
publisher LPPM Institut Teknologi Telkom Purwokerto
series Jurnal Infotel
issn 2085-3688
2460-0997
publishDate 2021-02-01
description Nowadays, world wide telecommunication researchers are developing 5G technology. One of most important key technology in 5G is Milimeter-Wave (mmWave). This study measure 60 GHz broadband wireless system performance because of it’s promising potentials. However, the use of these frequencies is quite sensitive to rain that resulting an atenuation in the channel. Therefore, this study proposes two schemes to address the problem. The first scheme is the use of QAM modulation (Quadrature Amplitude Modulation) and the second scheme is an addition of LDPC (Low Density Parity Check) code techniques. From the results of this study, by using 4-QAM modulation and LDPC coderate 1/2, the broadband wireless system’s performance on the second scheme is better compared to the first scheme with 8.33 dB Signal to Noise Ratio (SNR) value to provides BER (Bit Error Rate) 10-4
topic broadband wireless system
millimeter-wave
5g
hujan
qam
ldpc
url https://ejournal.st3telkom.ac.id/index.php/infotel/article/view/556
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AT galuramuhammadsuranegara raineffecttoa60ghzbroadbandwirelesssystemsperformancestudycaseinpurwakarta
AT ichwannulichsan raineffecttoa60ghzbroadbandwirelesssystemsperformancestudycaseinpurwakarta
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