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Features of the implementation of the satellite communication system in the highly elliptical orbit “Express-RV”

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1. 标题 文档的标题 Features of the implementation of the satellite communication system in the highly elliptical orbit “Express-RV”
2. 创建者 作者姓名,工作单位,国家 Vyacheslav Zharinov; Tomsk State University; JSC “Information Satellite Systems” Academician M. F. Reshetnev Company”; 俄罗斯联邦
2. 创建者 作者姓名,工作单位,国家 Oleg Ponomarev; Tomsk State University; JSC “Information Satellite Systems” Academician M. F. Reshetnev Company”; 俄罗斯联邦
2. 创建者 作者姓名,工作单位,国家 Igor Bobkov; JSC “Information Satellite Systems” Academician M. F. Reshetnev Company”; 俄罗斯联邦
3. 主题 学科
3. 主题 关键词 satellite communication system; highly elliptical orbit; multi-beam payload; forward link; return link; DVB-S2X; DVB-RCS2
4. 描述 摘要

This article addresses the Express-RV satellite system, which developers are currently creating. Its primary purpose is to provide subscribers in the Russian Federation and the Northern Sea Route with internet access. The subject of the study is the main features of the Express-RV system implementation, concerning communication in the forward and reverse satellite channel. Among the main features of the satellite system, in addition to the highly elliptical orbit (HEO), we can highlight multi-beam coverage of the service area, direct signal retransmission and the choice of DVB-S2X and DVB-RCS2 satellite communication standards. To implement multi-beam coverage of the service area and direct retransmission, the system employs a multi-beam Ku-band payload. Therefore, the work prioritizes the description of this payload.

Objective of the work: to analyze the features and energy parameters of the Express-RV satellite system to confirm its operability, as well as to determine the operating modes in the forward and reverse channels according to the DVB-S2X and DVB-RCS2 standards.

Methodology: analysis of the main solutions of the Express-RV system being developed, the DVB-S2X and DVB-RCS2 satellite standards and the recommendations of the International Radiocommunication Union ITU-R P.618-13, theoretical calculation of the energy budget of the radio link.

The results confirm the system’s operability, as the study demonstrates the possibility of quasi-error-free reception of DVB-S2X and DVB-RCS2 signals under ideal synchronization conditions. In addition, based on the calculation, we identify the actually used types of modulation in the return channel from those presented in the DVB-RCS2 standard for 3 types of subscriber terminals. For the forward channel, the analysis reveals that the transmission mode adapts to the terminal with the smallest reflector diameter, eliminating benefits from larger-aperture terminals.

Scope of application of the results: the researchers and engineers use the results to further develop the Express-RV satellite system.
5. 出版商 组织机构,地点 Reshetnev Siberian State University of Science and Technology
6. 合作者 主管
7. 日期 (YYYY-MM-DD) 30.06.2025
8. 类型 现状与流派 同行评议的文章
8. 类型 类型 来源文章
9. 格式 文件格式
10. 识别码 环球资源指标 https://journals.eco-vector.com/2712-8970/article/view/686534
10. 识别码 Digital Object Identifier (DOI) 10.31772/2712-8970-2025-26-2-224-238
11. 期刊/会议标题 ; 卷., 期. (年) Siberian Aerospace Journal; 卷 26, 编号 2 (2025)
12. 语言 English=en ru
13. 关系 补充文件 Fig. 1. Ground route of the wind energy system (121KB)
Fig. 2. Elevation angles of subscribers served from the main loop, from the apogee point (176KB)
Fig. 3. Quasi-global L/C-band payload coverage area (264KB)
Fig. 4. Ku-band payload coverage area from apogee (268KB)
Fig. 5. Signal attenuation in the atmosphere (142KB)
Fig. 6. Star network topology (86KB)
Fig. 7. Simplified functional diagram of Ku-band direct payload channels (21KB)
Fig. 8. Simplified functional diagram of the Ku-band payload return channels (22KB)
Fig. 9. Doppler shift on the upline and total Doppler shift (155KB)
14. 范围 地理位置、年代时期、调查样本(性别、年纪等等)
15. 权力 版权及权限 版权所有 © Zharinov V.F., Ponomarev O.G., Bobkov I.V., 2025
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