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陆海空天一体化信息网络发展研究
Development of Land–Sea–Air–Space Integrated Information Network
陆海空天一体化信息网络具有为陆基、海基、空基、天基等各类用户提供全球随遇接入、信息安全可靠服务的能力,是我国避免受制于人、实现网络强国的重要基础设施之一。立足于我国一体化信息网络的发展,本文以文献调研、专家咨询的研究方式,梳理了陆海空天一体化信息网络的发展需求,开展了国内外典型系统的分析研究,总结了我国在先进陆海空天一体化信息网络方面存在的主要问题及差距,重点提出适合国情的融合网络架构初步设想及相应发展路线建议。研究认为,在推进陆海空天一体化信息网络论证设计和工程实施的过程中,应着重强化网络架构、技术体制、应用服务支撑体系方面的深度融合,兼顾通信、导航、遥感系统的功能融合,推动天基网络技术自主可控和高端产业升级,同步加强相关系统的安全防护能力建设。
The land–sea–air–space integrated information network is capable of providing globally accessible, safe, and reliable information services for land-, sea-, space-, and air-based users; it is an important infrastructure for China to maintain independence in the field and to become a cyberpower. This study uses literature research and expert consultation as the main research methods to summarize the development requirements of the land–sea–air–space integrated information network. After a detailed study on typical domestic and foreign systems, the major weaknesses of China’s land–sea–air–space integrated information network are summarized. Moreover, an integrated information network architecture and development routes are proposed. Specifically, we suggest that China should focus on the deep integration in terms of network architecture, technical system, and application services; integrate the communication, navigation, and remote sensing systems; promote technical independence and industrial upgrade of space-based networks; and strengthen its system security protection capabilities.
陆海空天一体化信息网络 / 天基信息系统 / 网络架构 / 融合网络 / 发展路线
land–sea–air–space integrated information network / space-based information system / network architecture / integrated network / development route
| [1] |
沈荣骏. 我国天地一体化航天互联网构想 [J]. 中国工程科学, 2006, 8(10): 19–30. Shen R J. Some thoughts of Chinese integrated space-ground network system [J]. Strategic Study of CAE, 2006, 8(10): 19–30.
|
| [2] |
张乃通, 赵康僆, 刘功亮. 对建设我国“天地一体化信息网络”的 思考 [J]. 中国电子科学研究院学报, 2015, 10(3): 223–230. Zhang N T, Zhao K L, Liu G L. Thought on constructing the integrated space-terrestrial information network [J]. Journal of China Academy of Electronics and Information Technology, 2015, 10(3): 223–230.
|
| [3] |
Yao H P, Wang L Y, Wang X D, et al. The space-terrestrial integrated network (STIN): An overview [J]. IEEE Communications Magazine, 2018, 56(4): 2–9.
|
| [4] |
吴巍. 天地一体化信息网络发展综述 [J]. 天地一体化信息网络, 2020, 1(1): 1–16. Wu W. Survey on the development of space-integrated-ground information network [J]. Space-Integrated-Ground Information Networks, 2020, 1(1): 1–16.
|
| [5] |
You X H, Wang C X, Huang J, et al. Towards 6G wireless communication networks: Vision, enabling technologies, and new paradigm shifts [J]. Science China Information Sciences, 2021, 64: 1–76.
|
| [6] |
汪春霆, 翟立君, 徐晓帆. 天地一体化信息网络发展与展望 [J]. 无线电通信技术, 2020, 46(5): 493–504. Wang C T, Zhai L J, Xu X F. Development and prospects of space-terrestrial integrated information network [J]. Radio Communications Technology, 2020, 46(5): 491–504.
|
| [7] |
Pulliam J, Zambre Y, Karmarkar A, et al. TSAT network architecture [C]. San Diego: Military Communications Conference, 2008.
|
| [8] |
Vanelli-Coralli A, Corazza G E, Luglio M, et al. The ISICOM architecture [C]. Siena: 2009 International Workshop on Satellite and Space Communications, 2009.
|
| [9] |
Kaushal H, Kaddoum G. Optical communication in space: Challenges and mitigation techniques [J]. IEEE Communications Surveys & Tutorials, 2017, 19(1): 57–96.
|
| [10] |
徐晓帆, 陆洲. 星地激光通信可靠性保障技术研究现状 [J]. 中 国电子科学研究院学报, 2018, 13(6): 650–657. Xu X F, Lu Z. Research status of mitigation techniques to assure the reliability of satellite-to-ground laser communications [J]. Journal of China Academy of Electronics and Information Technology, 2018, 13(6): 650–657.
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