RAHAYU, ISMALIA (2021) MODEL KANAL 5G FREKUENSI 28 GHz, 73 GHz, dan 4 GHz DENGAN PENGARUH SUHU DI KOTA BANDUNG. S1 thesis, Universitas Mercu Buana Jakarta.
|
Text (HAL COVER)
00. COVER.pdf Download (1MB) | Preview |
|
![]() |
Text (BAB I)
01. BAB I.pdf Restricted to Registered users only Download (1MB) |
|
![]() |
Text (BAB II)
02. BAB II.pdf Restricted to Registered users only Download (5MB) |
|
![]() |
Text (BAB III)
03. BAB III.pdf Restricted to Registered users only Download (1MB) |
|
![]() |
Text (BAB IV)
04. BAB IV.pdf Restricted to Registered users only Download (6MB) |
|
![]() |
Text (BAB V)
05. BAB V.pdf Restricted to Registered users only Download (539kB) |
|
![]() |
Text (DAFTAR PUSTAKA)
06. DAFTAR PUSTAKA.pdf Restricted to Registered users only Download (601kB) |
|
![]() |
Text (LAMPIRAN)
07. LAMPIRAN.pdf Restricted to Registered users only Download (3MB) |
Abstract
The 5G channel model is the latest research on future cellular communication by considering the proposed millimeter wave (mmwave) as an enabling technology for the realization of connectivity in the 5G era. However, mmwave signal propagation suffers a high propagation loss to sensitivity to delay, resulting in a high probability and a low signal to signal ratio (SNR). This can take into account the potential for millimeter wave (mmwave) frequencies of 28, 73 and 4 GHz which are capable of meeting wide bandwidth requirements and data rates of up to Gbps for various scenarios such as Urban Microcell (UMi) and Urban Macrocell (UMa). The area used to conduct this research is in Indonesia because it is a tropical region that has high rainfall so that it can determine the effect that occurs when it is at maximum and minimum temperatures in each month. Therefore, to determine the characteristics of the 28, 73 and 4 GHz channels in the city of Bandung. This study discusses large-scale mmwave characteristics such as path loss, delay spread and power delay profile for line-of-sight (LOS) and non-line-of-sight (NLOS) cases and compares directional and omnidirectional propagation. In this study the Urban Microcell (UMi) scenario was carried out at a distance of 20 meters to 200 meters with a frequency of 28 GHz and 73 GHz, then for the Urban Macrocell (UMa) scenario at a frequency of 4 GHz with a distance of 50 meters to 500 meters Model kanal 5G merupakan penelitian terbaru tentang komunikasi seluler di masa depan dengan mempertimbangkan gelombang millimeter (mmwave) yang diusulkan sebagai teknologi yang memungkinkan untuk realisasi konektivitas di era 5G. Namun propagasi sinyal mmwave mengalami kerugian propagasi yang tinggi terhadap sesnsitivitas terhdapat delay, menghasilkan probabilitas yang tinggi dan rasio sinyal terhadap (SNR) yang rendah. Hal tersebut dapat mempertimbangkan potensi frekuensi milimeterwave (mmwave) 28, 73 dan 4 GHz yang mampu memenuhi kebutuhan bandwidth yang luas dan data rate hingga Gbps untuk berbagai scenario seperti Urban Microcell (UMi) dan Urban Macrocell (UMa). Daerah yang digunakan untuk melakukan penelitian ini berada di Indonesia karena merupakan wilayah tropis yang memiliki curah hujan yang tinggi sehingga dapat mengetahui pengaruh yang terjadi apabila berada pada suhu maksimum dan minimum di setiap bulannya. Oleh karena itu untuk mengetahui karakteristik kanal 28, 73 dan 4 GHz pada kota Bandung. Penelitian ini membahas karakteristik skala besar mmwave seperti path loss, delay spread dan power delay profile untuk kasus lineof- sight (LOS) dan non-line-of-sight (NLOS) serta membandingkan propogasi directional dan omnidirectional. Pada penelitian ini scenario Urban Microcell (UMi) dilakukan pada jarak 20 meter sampai dengan 200 meter dengan frekuensi 28 GHz dan 73 GHz, kemudian untuk scenario Urban Macrocell (UMa) pada frekuensi 4 GHz dengan jarak 50 meter sampai dengan 500 meter.
Item Type: | Thesis (S1) |
---|---|
NIM/NIDN Creators: | 41419120127 |
Subjects: | 600 Technology/Teknologi > 620 Engineering and Applied Operations/Ilmu Teknik dan operasi Terapan 600 Technology/Teknologi > 620 Engineering and Applied Operations/Ilmu Teknik dan operasi Terapan > 621 Applied Physics/Fisika terapan 600 Technology/Teknologi > 620 Engineering and Applied Operations/Ilmu Teknik dan operasi Terapan > 621 Applied Physics/Fisika terapan > 621.3 Electrical Engineering, Lighting, Superconductivity, Magnetic Engineering, Applied Optics, Paraphotic Technology, Electronics Communications Engineering, Computers/Teknik Elektro, Pencahayaan, Superkonduktivitas, Teknik Magnetik, Optik Terapan, Tekn |
Divisions: | Fakultas Teknik > Teknik Elektro |
Depositing User: | Dede Muksin Lubis |
Date Deposited: | 02 Jul 2025 01:58 |
Last Modified: | 02 Jul 2025 01:58 |
URI: | http://repository.mercubuana.ac.id/id/eprint/95970 |
Actions (login required)
![]() |
View Item |