International Journal of Research in Advanced Electronics Engineering
2025, Vol. 6, Issue 2, Part A
Development of satellite communication subsystems for remote data acquisition
Author(s): Henrik Johansson
Abstract: This research explores the development and optimization of satellite communication subsystems for remote data acquisition, focusing on enhancing system performance, reliability, and power efficiency. With the growing need for reliable communication in remote and underserved regions, traditional satellite communication systems face significant challenges, including signal attenuation, power consumption, and limited throughput. The proposed system integrates advanced technologies such as adaptive modulation, error-correction codes, and Software Defined Radio (SDR) to overcome these limitations. Experimental results demonstrate that the proposed system outperforms conventional systems in key metrics, including Signal-to-Noise Ratio (SNR), data throughput, bit error rate (BER), and power consumption. The proposed system achieved a 5.6 dB improvement in SNR and a 23% reduction in power consumption, while also improving data throughput and reliability. Statistical analysis confirms the significance of these improvements, with the proposed system showing a higher reliability score of 92% compared to 84% for traditional systems. These findings suggest that the proposed satellite communication subsystems hold great potential for real-time data transfer in critical applications, including disaster management, environmental monitoring, and scientific research. The integration of energy-efficient hardware and robust error-correction techniques makes this system suitable for deployment in remote areas where infrastructure is sparse. This research provides valuable insights into the future development of satellite communication technologies and their application in remote data acquisition.
Pages: 22-26 | Views: 6 | Downloads: 3
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How to cite this article:
Henrik Johansson. Development of satellite communication subsystems for remote data acquisition. Int J Res Adv Electron Eng 2025;6(2):22-26.
