Using LEO-GEO Cross-Link to Enhance LEO Satellite Communication Coverage Area

被引:3
|
作者
Fouad, Karim A. [1 ]
Xu, XiaoJian [1 ]
机构
[1] Beihang Univ, Elect Informat Dept, Beijing, Peoples R China
来源
7TH INTERNATIONAL CONFERENCE ON SYSTEM SIMULATION AND SCIENTIFIC COMPUTING ASIA SIMULATION CONFERENCE 2008, VOLS 1-3 | 2008年
关键词
D O I
10.1109/ASC-ICSC.2008.4675487
中图分类号
TP39 [计算机的应用];
学科分类号
081203 ; 0835 ;
摘要
A remote sensing satellite possesses a payload as a multi-spectral Imager, The processed data and Its related information are transmitted to the ground station. The duration of the communication availability between the LEO satellite and ground station can be deduced according to the LEO satellite height and Its orbit parameters. This communication period constitutes a critical design parameter for the choice of communication architecture, mission analysis and design of remote sensing satellites. In this paper, a proposed technique using the LEO-GEO relay communication is Introduced In order In Increase the communication coverage area of the LEO satellite,
引用
收藏
页码:882 / 887
页数:6
相关论文
共 48 条
  • [1] IoT Traffic Allocation in Hybrid LEO-GEO Satellite Networks for Latency Minimization
    Grec, Marcel
    Leyva-Mayorga, Israel
    Clazzer, Federico
    Munari, Andrea
    Popovski, Petar
    2024 IEEE 25TH INTERNATIONAL WORKSHOP ON SIGNAL PROCESSING ADVANCES IN WIRELESS COMMUNICATIONS, SPAWC 2024, 2024, : 621 - 625
  • [2] Cooperative Spectrum Sharing in a Co-existing LEO-GEO Satellite System
    Gu, Pengwenlong
    Li, Rui
    Hua, Cunqing
    Tafazolli, Rahim
    2020 IEEE GLOBAL COMMUNICATIONS CONFERENCE (GLOBECOM), 2020,
  • [3] Cooperative Multi-Satellite and Multi-RIS Beamforming: Enhancing LEO SatCom and Mitigating LEO-GEO Intersystem Interference
    Zheng, Ziyuan
    Jing, Wenpeng
    Lu, Zhaoming
    Wu, Qingqing
    Zhang, Haijun
    Gesbert, David
    IEEE JOURNAL ON SELECTED AREAS IN COMMUNICATIONS, 2025, 43 (01) : 279 - 296
  • [4] The channel WDM system incorporates of Optical Wireless Communication (OWC) hybrid MDM-PDM for higher capacity (LEO-GEO) inter satellite link
    Abdulwahid, Maan M.
    Kurnaz, Sefer
    OPTIK, 2023, 273
  • [5] Optical homodyne BPSK receiver with Doppler shift compensation for LEO-GEO optical communication
    Ando, T.
    Haraguchi, E.
    Tajima, K.
    Hirano, Y.
    Hanada, T.
    Yamakawa, S.
    2013 CONFERENCE ON LASERS AND ELECTRO-OPTICS PACIFIC RIM (CLEO-PR), 2013,
  • [6] Performance Analysis of DPSK Optical Communication for LEO-to-Ground Relay Link Via a GEO Satellite
    Lim, Hyung-Chul
    Park, Jong Uk
    Choi, Mansoo
    Choi, Chul-Sung
    Choi, Jae-Doug
    Kim, Jongah
    JOURNAL OF ASTRONOMY AND SPACE SCIENCES, 2020, 37 (01) : 11 - 18
  • [7] LEO Satellite Multibeam Coverage Area Division and Beamforming Method
    Zhong, Kai Yuan
    Cheng, Yu Jian
    Yang, Hai Ning
    Zheng, Bin
    IEEE ANTENNAS AND WIRELESS PROPAGATION LETTERS, 2021, 20 (11): : 2115 - 2119
  • [8] Cross-link Interference Modeling in 6G Millimeter Wave and Terahertz LEO Satellite Communications
    Aliaga, Sergi
    Petrov, Vitaly
    Jornet, Josep M.
    ICC 2023-IEEE INTERNATIONAL CONFERENCE ON COMMUNICATIONS, 2023, : 2577 - 2583
  • [9] Terra and Aqua MODIS inter-comparison using LEO-GEO double difference method
    Chang, Tiejun
    Xiong, Xiaoxiong
    Angal, Amit
    SENSORS, SYSTEMS, AND NEXT-GENERATION SATELLITES XXII, 2018, 10785
  • [10] RIS-Aided LEO SatCom with LEO-GEO Inter-System Interference Mitigation: Joint Multi-Satellite Multi-RIS Beamforming
    Zheng, Ziyuan
    Jing, Wenpeng
    Lu, Zhaoming
    Wen, Xiangming
    Li, Wei
    2024 IEEE WIRELESS COMMUNICATIONS AND NETWORKING CONFERENCE, WCNC 2024, 2024,
12345