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

https://doi.org/10.35912/jatra.v3i1.1790
Published: Jan 18, 2024

Abstract:

Purpose: This study evaluates the performance of TD-CDMA and TD-SCDMA access technologies for High Altitude Platform Stations (HAPS) to meet growing demands for high-speed access and larger bandwidth in telecommunications.

Methodology/approach: A performance comparison was conducted between TD-CDMA and TD-SCDMA based on three key parameters: access speed, data transfer capacity, and power consumption levels. Analytical calculations were carried out to assess data capacity and transmitted power at varying distances from the HAPS.

Results/findings: The analysis showed that TD-CDMA provides higher data capacity compared to TD-SCDMA. Additionally, transmitted power requirements increase with greater distances between HAPS and ground receivers, with a maximum transmitted power of 19.423 W observed at 50,000 meters.

Conclutions: TD-CDMA offers better overall performance than TD-SCDMA for HAPS applications, providing higher data capacity while maintaining comparable power efficiency, making it a preferable choice for high-speed communication services.

Limitations: The study is limited to theoretical calculations without real-world field testing. Factors such as environmental interference and atmospheric conditions were not included in the analysis.

Contribution: This research provides insights into selecting efficient access methods for HAPS technology, highlighting TD-CDMA as the more suitable option to support high-speed, large-bandwidth telecommunication services with optimized resource utilization.

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
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How to Cite
Melvi, M., Nurhayati, N., Batubara, M. A. M. ., Septama, H. D. ., & Ulvan, A. (2024). Unjuk Kerja Teknologi Akses Jamak TD-CDMA dan TD-SCDMA pada Infrastruktur Jaringan High Altitude Platform Stations . Jurnal Teknologi Riset Terapan, 3(1), 33–41. https://doi.org/10.35912/jatra.v3i1.1790
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Issue & Section
Vol. 3 No. 1 (2025): Januari
Articles
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  1. 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.
  2. 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.
  3. Feihong, D., Hongjun, L., & Xiangwu, G. (2015). Energy Efficient Transmissions For Remote Wireless Sensor Network An Integrated
  4. HAP/Satellite Architectur For Emeggency Scenarios. Journal Ssensor. Received 9 July 2015. ISSN: 1424-8220.
  5. 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.
  6. 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.
  7. Martinez, E. (2004). Introduction to TD-SCDMA on the MRC6011 RCF Device. Freescale Semiconductor. Rev. 1.
  8. Oktaviani, O. (2009). Mengenal Teknologi 3G. Universitas Gunadarma.
  9. 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.
  10. 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.
  11. 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.