The Rainfall Intensity Effects on 1–13 GHz UWB-Based 5G System for Outdoor Applications

Suryana, Joko

doi:10.1155/2017/6495145

Cited by 7 publications

(1 citation statement)

References 8 publications

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“…Salah satu tantangan dalam sistem komunikasi pita lebar masa depan adalah kebutuhan akan antena yang sesuai untuk mendukung kinerja sistem komunikasi pulsa durasi sangat pendek [1]. Sistem komunikasi kecepatan tinggi (broadband) seperti 5G membutuhkan antena yang dapat bekerja pada pita di bawah 6 GHz maupun di atas 6 GHz untuk transmisi pulsa berdurasi nanodetik dengan distorsi seminimal mungkin.…”

Section: Pendahuluanunclassified

Desain dan Optimasi Antena Pita Lebar Planar Monopole Bentuk Sembarang dengan Algoritma Genetika dan Metoda Momen

Suryana

2018

Jurnal Teknologi dan Sistem Komputer

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This paper presents a new approach in designing an ultra wideband minimum dispersion antenna optimally to avoid the degradation of broadband communications system performance. Design and iterative optimization are applied to an arbitrary shape of planar monopole antenna using a genetic algorithm combined with the moment method, abbreviated as AGMM method, and implemented with Matlab. Two arbitrary shapes of planar monopole antennas have been implemented in compact physical size using AGMM optimization, each having 9.1 GHz and 7.4 GHz bandwidths, the lowest frequency of 1.9 GHz and 2.7 GHz and fidelity 0.6 and 0.64 for any arbitrary discrete antenna and edge profile antenna. This method can be applied to design any arbitrary shapes of an ultra-wideband antenna with each has wide bandwidth more than 7 GHz, the lowest frequency below 3 GHz and a minimum fidelity of 0,55 that is suitable for high-speed communication, such as 5G system. AGMM yang masing-masing memiliki lebar pita 9,1 GHz dan 7,4 GHz, frekuensi terendah 1,9 GHz dan 2,7 GHz serta memiliki fidelity 0,6 dan 0,64 untuk antena diskrit sembarang dan antena profil tepi sembarang. Metode ini dapat diterapkan untuk merancang antena pita lebar bentuk sembarang dengan lebar pita lebih dari 7 GHz, frekuensi terendah < 3 GHz dan memiliki fidelity di atas 0,55 yang cocok untuk komunikasi berkecepatan tinggi, misalnya sistem 5G. Kata Kunci -antena pita lebar; dispersi minimum; algoritma genetika; metode momen; antena optimal Tersedia di https: //jtsiskom.undip.ac.id (30 April 2018) Abstrak -Makalah ini memaparkan pendekatan baru dalam perancangan optimal antena pita lebar dispersi minimum untuk menghindari penurunan kinerja sistem komunikasi kecepatan tinggi. Desain dan optimasi iteratif diterapkan pada antena planar monopole bentuk sembarang menggunakan algoritma genetika yang digabungkan dengan metode momen yang disingkat sebagai metode AGMM. Metode ini diimplementasikan dengan Matlab. Dua buah tipe antena planar monopole pita lebar bentuk sembarang dan ukuran fisik kompak berhasil dirancang dengan

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Section: Pendahuluanunclassified

Desain dan Optimasi Antena Pita Lebar Planar Monopole Bentuk Sembarang dengan Algoritma Genetika dan Metoda Momen

Suryana

2018

Jurnal Teknologi dan Sistem Komputer

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Numerical analysis for infant's unintentional exposure to 3.5 GHz plane wave radiofrequency electromagnetic fields by field test of fifth generation wireless technologies

Liú

Kang

et al. 2017

Radio Science

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In this study, the plane wave exposure of an infant to radiofrequency electromagnetic fields of 3.5 GHz was numerically analyzed to investigate the unintentional electromagnetic field (EMF) exposure of fifth generation (5G) signals during field test. The dosimetric influence of age‐dependent dielectric properties and the influence of an adult body were evaluated using an infant model of 12 month old and an adult female model. The results demonstrated that the whole body‐averaged specific absorption rate (WBASAR) was not significantly affected by age‐dependent dielectric properties and the influence of the adult body did not enhance WBASAR. Taking the magnitude of the in situ E field strength into consideration, realistic WBASAR was far below the basic restriction. Age‐dependent dielectric properties could significantly change the tissue specified specific absorption rate (TSSAR) of internal organs. However, the variation was not significant because the absolute values were marginal. Among the factors that influenced TSSAR variation, change in dielectric properties demonstrated a close correlation. In general, at 3.5 GHz, the infant did not absorb more power than the case of EMF exposure to third generation (3G) and fourth generation (4G) signals. The work was helpful for network operators and device manufactures to estimate the potential exposure risk during the field test, especially for the infant.

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Effects of Integration Time on Rain Rate Distribution for Microwave Link Design

Mullah

Rafiqul

Habaebi

et al. 2022

Lecture Notes in Electrical Engineering

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The Rainfall Intensity Effects on 1–13 GHz UWB-Based 5G System for Outdoor Applications

Cited by 7 publications

References 8 publications

Desain dan Optimasi Antena Pita Lebar Planar Monopole Bentuk Sembarang dengan Algoritma Genetika dan Metoda Momen

Desain dan Optimasi Antena Pita Lebar Planar Monopole Bentuk Sembarang dengan Algoritma Genetika dan Metoda Momen

Numerical analysis for infant's unintentional exposure to 3.5 GHz plane wave radiofrequency electromagnetic fields by field test of fifth generation wireless technologies

Effects of Integration Time on Rain Rate Distribution for Microwave Link Design

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