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ZTE Communications ›› 2020, Vol. 18 ›› Issue (4): 26-33.DOI: 10.12142/ZTECOM.202004005

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Satellite E2E Network Slicing Based on 5G Technology

ZHANG Jing(), WEI Xiao, CHENG Junfeng, FENG Xu   

  1. China Academy of Electronics and Information Technology, Beijing 100041, China
  • Received:2020-10-26 Online:2020-12-25 Published:2021-01-13
  • About author:ZHANG Jing (zhangjing_7@chinagci.com) graduated from Xidian University, China. He now works in China Academy of Electronics and Information Technology as a professor. His main research interests include satellite wireless access network technology based on 5G technology, time sensitive private network based on 4G/5G technology, and application of mobile edge computing technology in industry private network.|WEI Xiao graduated from Huazhong University of Science and Technology, China. She now works in China Academy of Electronics and Information Technology as an engineer. Her main research interests are space-earth integration network and wireless communications.|CHENG Junfeng graduated from Guizhou University, China. She now works in China Academy of Electronics and Information Technology as an assistant engineer. Her main research interests are space-earth integration network and wireless communications.|FENG Xu graduated from Beihang University, China. He now works in China Academy of Electronics and Information Technology as a senior engineer. His main research interests are space-earth integration network and satellite communications.

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Abstract:

We investigate the design of satellite network slicing for the first time to provide customized services for the diversified applications, and propose a novel scheme for satellite end-to-end (E2E) network slicing based on 5G technology, which provides a view of common satellite network slicing and supports flexible network deployment between the satellite and the ground. Specifically, considering the limited satellite network resource and the characteristics of the satellite channel, we propose a novel satellite E2E network slicing architecture. Therein, the deployment of the network functions between the satellite and the ground is coordinately considered. Subsequently, the classification and the isolation technologies of satellite network sub-slices are proposed adaptively based on 5G technology to support resource allocation on demand. Then, we develop the management technologies for the satellite E2E network slicing including slicing key performance indicator (KPI) design, slicing deployment, and slicing management. Finally, the analysis of the challenges and future work shows the potential research in the future.

Key words: satellite communications, E2E network slicing, diversified applications, 5G technology