Unjuk Kerja Teknologi Akses Jamak TD-CDMA dan TD-SCDMA pada Infrastruktur Jaringan High Altitude Platform Stations

Melvi Melvi; Nurhayati Nurhayati; Mona Arif Muda  Batubara; Hery Dian  Septama; Ardian Ulvan

doi:10.35912/jatra.v1i1.1790

Unjuk Kerja Teknologi Akses Jamak TD-CDMA dan TD-SCDMA pada Infrastruktur Jaringan High Altitude Platform Stations

https://doi.org/10.35912/jatra.v1i1.1790

Published: Feb 17, 2023

Abstract:

The rapid development of telecommunications technology, and the increasing demand for access speed, demands additional frequency bandwidth in the telecommunications sector. The most rational solution is to utilize a new telecommunications infrastructure technology that has high capabilities, but is relatively inexpensive, known as HAPS (High Altitude Platform Stations). The access methods that are expected to be technology candidates for HAPS are TD-CDMA (Time Division Code Division Multiple Access) and TD-SCDMA (Time Division Synchronous Code Division Multiple Access).

Purpose: In this study, the performance of the two technologies, namely TD-CDMA and TD-SCDMA, is discussed. The parameters tested include access speed, data transfer capacity, and power consumption level.

Methodology: Parameters tested include access speed, data transfer capacity, and power consumption level. This performance test is carried out through mathematical calculations to determine the efficiency of the two technologies after being implemented on HAPS.

Results: Based on calculations, the results show that data capacity of TD-CDMA is larger than TD-SCDMA. Additionaly, it can also be found that the transmitted power from HAPS is increase as the distance increased. The maximum transmitted power of 19,423 W was occurredat 50000 meters

Keywords:

1. HAPS

2. TD-CDMA

3. TD-SCDMA

Authors:

1	.	Melvi Melvi

2	.	Nurhayati Nurhayati

3	.	Mona Arif Muda Batubara

4	.	Hery Dian Septama

5	.	Ardian Ulvan

View PDF

How to Cite

Melvi, M., Nurhayati, N., Batubara, M. A. M. ., Septama, H. D. ., & Ulvan, A. (2023). Unjuk Kerja Teknologi Akses Jamak TD-CDMA dan TD-SCDMA pada Infrastruktur Jaringan High Altitude Platform Stations . Jurnal Teknologi Riset Terapan, 1(1), 51–59. https://doi.org/10.35912/jatra.v1i1.1790

Download Citation

Downloads

Download data is not yet available.

Issue & Section

Vol. 1 No. 1 (2023): Januari

Articles

References

Andi, K., Kusumanto, R., & Yusi, S. (2022). IoT Monitoring for PV System Optimization in Hospital Environment Application. Studies in Informatics, Technology and Systems, 1(1), 1-8.

Direktorat Jendral Sumberdaya dan Perangkat Pos dan Informatika, D. J. S. d. P. P. d. I. (2011). Konsep Peta Jalan (ROADMAP) Infrastruktur Satelit Indonesia (ISI) Indonesia.

Feihong, D., Hongjun, L., & Xiangwu, G. (2015). Energy Efficient Transmissions For Remote Wireless Sensor Network An Integrated

HAP/Satellite Architectur For Emeggency Scenarios. Journal Ssensor. Received 9 July 2015. ISSN: 1424-8220.

Ferdinan, A., Santoso, I., & Darjat, D. (2009). Kinerja Teknik Transmisi OFDM Melalui Kanal HAPS (High Altitude Platform Station). Jurnal Teknik Elektro. Volume. 11 No.3, September 2009, hal. 152-158.

Gong, B., Wang, Z., & Guo, Q. (2009). Research on Capacity Calculation of TD-CDMA High Altitude Platform System. Conference on Communication. Res. 987-1-935068-01-3.

Martinez, E. (2004). Introduction to TD-SCDMA on the MRC6011 RCF Device. Freescale Semiconductor. Rev. 1.

Oktaviani, O. (2009). Mengenal Teknologi 3G. Universitas Gunadarma.

Putra, T. I. Z. M., Suprapto, S., & Bukhori, A. F. (2022). Model Klasifikasi Berbasis Multiclass Classification dengan Kombinasi Indobert Embedding dan Long Short-Term Memory untuk Tweet Berbahasa Indonesia. Jurnal Ilmu Siber dan Teknologi Digital, 1(1), 1-28.

Riesna, D. M. R., Pujianto, D. E., Efendi, A. J. I., Nugroho, B. A., & Saputra, D. I. S. (2023). Identifikasi Platform dan Faktor Sukses dalam Manajemen Proyek Teknologi Informasi. Jurnal Teknologi Riset Terapan, 1(1), 1-9.

Zabartih, M. I., & Widhiarso, W. (2022). Information Technology Strategic Plan for Hospital using Ward and Peppard Model. Studies in Informatics, Technology and Systems, 1(1), 9-23.

Andi, K., Kusumanto, R., & Yusi, S. (2022). IoT Monitoring for PV System Optimization in Hospital Environment Application. Studies in Informatics, Technology and Systems, 1(1), 1-8.
Direktorat Jendral Sumberdaya dan Perangkat Pos dan Informatika, D. J. S. d. P. P. d. I. (2011). Konsep Peta Jalan (ROADMAP) Infrastruktur Satelit Indonesia (ISI) Indonesia.
Feihong, D., Hongjun, L., & Xiangwu, G. (2015). Energy Efficient Transmissions For Remote Wireless Sensor Network An Integrated
HAP/Satellite Architectur For Emeggency Scenarios. Journal Ssensor. Received 9 July 2015. ISSN: 1424-8220.
Ferdinan, A., Santoso, I., & Darjat, D. (2009). Kinerja Teknik Transmisi OFDM Melalui Kanal HAPS (High Altitude Platform Station). Jurnal Teknik Elektro. Volume. 11 No.3, September 2009, hal. 152-158.
Gong, B., Wang, Z., & Guo, Q. (2009). Research on Capacity Calculation of TD-CDMA High Altitude Platform System. Conference on Communication. Res. 987-1-935068-01-3.
Martinez, E. (2004). Introduction to TD-SCDMA on the MRC6011 RCF Device. Freescale Semiconductor. Rev. 1.
Oktaviani, O. (2009). Mengenal Teknologi 3G. Universitas Gunadarma.
Putra, T. I. Z. M., Suprapto, S., & Bukhori, A. F. (2022). Model Klasifikasi Berbasis Multiclass Classification dengan Kombinasi Indobert Embedding dan Long Short-Term Memory untuk Tweet Berbahasa Indonesia. Jurnal Ilmu Siber dan Teknologi Digital, 1(1), 1-28.
Riesna, D. M. R., Pujianto, D. E., Efendi, A. J. I., Nugroho, B. A., & Saputra, D. I. S. (2023). Identifikasi Platform dan Faktor Sukses dalam Manajemen Proyek Teknologi Informasi. Jurnal Teknologi Riset Terapan, 1(1), 1-9.
Zabartih, M. I., & Widhiarso, W. (2022). Information Technology Strategic Plan for Hospital using Ward and Peppard Model. Studies in Informatics, Technology and Systems, 1(1), 9-23.