CUBESATS AND THEIR ROLE IN UZBEKISTAN’S COMMUNICATION SECTOR
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CubeSat, nanosatellite, Uzbekistan, satellite communication, IoT, remote connectivity, LEO satellites, space technology, national infrastructure, digital transformationAbstrak
This article explores the significance of CubeSats in transforming Uzbekistan’s communication sector. CubeSats, as cost-effective and compact nanosatellites, offer valuable solutions for enhancing connectivity, especially in remote and underserved areas. The paper discusses the technical characteristics of CubeSats, including their modular design, communication capabilities, and application in Internet of Things (IoT) integration. Uzbekistan’s current initiatives in educational programs and international collaborations are highlighted, demonstrating the country’s growing interest in satellite technology. Furthermore, the strategic importance of CubeSats for national security, economic development, and scientific research is analyzed. Tables and diagrams support the analytical overview, emphasizing the potential of CubeSats to contribute significantly to Uzbekistan's digital infrastructure.
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Bibliografik havolalar
1. Saeed, N., Elzanaty, A., Almorad, H., Dahrouj, H., Al-Naffouri, T. Y., & Alouini, M.-S. (2019). CubeSat Communications: Recent Advances and Future Challenges. arXiv preprint arXiv:1908.09501.
2. Bulanov, A. (Year). Inter-Satellite Communication for LEO CubeSat Network: QoS Parameters and Feasibility of Massive MIMO. Journal of
Communications Technology and Electronics.
3. KUPSAT. (n.d.). Applications and Accessibility of Cube Satellites. Retrieved from https://kupsat.com/applications-and-accessibility-of-cube-satellites/
4. UniSat Uzbekistan. (n.d.). Retrieved from UniSat Uzbekistan
5. Almalki, F. A., Mutawi, A. M., Turkistani, I. A., & Almubayed, Y. M. (2022). Developing CubeSat and AI Framework for Crowd Management Case of Short-Term Large-Scale Events. ResearchGate.ResearchGate
6. Bhagavathula, K. B., & Gupta, Y. (2015). Design, analysis and testing of Antenna Deployment mechanism for CubeSat Applications.
ResearchGate.ResearchGate
7. Roknabadi, M. H. A., Khatir, P. A., Barkhordari, M., & Aval, R. E. (2022). Design of Earth Observation Cubesat based on a systems engineering approach. ResearchGate.ResearchGate
8. Liubimov, O., Turkin, I., Pavlikov, V., & Volobuyeva, L. (2023). Agile Software Development Lifecycle and Containerization Technology for CubeSat Command and Data Handling Module Implementation. ResearchGate.ResearchGate
9. Wikipedia contributors. (2025). CubeSat Space Protocol. Wikipedia. Retrieved from https://en.wikipedia.org/wiki/Cubesat_Space_Protocolen.wikipedia.org
10. Wikipedia contributors. (2025). Phi-Sat-2. Wikipedia. Retrieved from https://en.wikipedia.org/wiki/Phi-Sat-2en.wikipedia.org
11. Toorian, A., Blundell, M., & Puig-Suari, J. (2008). CubeSats as responsive satellites. AIAA 3rd Responsive Space Conference, Los Angeles, CA.
12. Swartwout, M. (2016). The first one hundred CubeSats: A statistical look. Journal of Small Satellites, 2(2), 213–233.
13. Poghosyan, A., & Golkar, A. (2017). CubeSat evolution: Analyzing CubeSat capabilities for conducting science missions. Progress in Aerospace Sciences, 88, 59–83. https://doi.org/10.1016/j.paerosci.2016.11.002
14. Langer, M., & Bouwmeester, J. (2016). Reliability of CubeSats–Statistical Data, Developers' Beliefs and the Way Forward. CEAS Space Journal, 8(1), 67–76.
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