卫星确定性网络关键技术和挑战

Abstract

Abstract:

Satellite Internet is an important means to meet the ubiquitous network access in the future. It has a wide range of application scenarios in disaster prevention, marine operation and scientific research broadband on account of its wide coverage, large communication capacity and global seamless connection. Starting from the vision of the deterministic transmission of Satellite Internet, combined with the existing deterministic network technology, this paper puts forward the satellite deterministic network architecture, and points out the existing challenges and future development in deterministic access, multi-service differentiation guarantee, dynamic

resource allocation and path backup of satellite deterministic network.

Key words:

">satellite Internet, deterministic network, network architecture, deterministic access, differentiated guarantee

CLC Number:

JI Ruoyu, ZHANG Hengsheng, LIU Meihui, LI He, XU Fangmin, ZHAO Chenglin.

Key Technologies and Challenges of Satellite Deterministic Network

[J]. Space-Integrated-Ground Information Networks.

References

[1] 黄韬, 汪硕, 黄玉栋, 等. 确定性网络研究综述[J]. 通信学报, 2019, 40(06): 160-176.

HUANG T, WANG S, HUANG Y D, et al. Survey of the deterministic network[J]. Journal on Communications, 2019, 40(6): 160-176.

[2] 曹志鹏,刘勤让,刘冬培,等. 时间敏感网络研究进展[J]. 计算机应用研究,2021, 38(3):647-655.

CAO Z P, LIU Q R, LIU D P, et al. Survey of time-sensitive networking[J]. Application Research of Computers, 2021, 38(3): 647-655.

[3] Geng X, Ryoo Y, Fedyk D, et al. Deterministic Networking (DetNet) YANG Model[J]. Internet Engineering Task Force, 2021.

[4] Cheng Yujun, Yang Dong, Zhou Huachun. Det-WiFi: A Multihop TDMA MAC Implementation for Industrial Deterministic Applications Based on Commodity 802.11 Hardware[J]. Wireless Communications and Mobile

《天地一体化信息网络》Computing. 2017,2017:1-10.

[5] 汪硕,王佳森,蔡磊,等.面向工业制造的确定性网络技术发展研究[J].中国工程科学,2021,23(02):22-29.

WANG S, WANG J S, CAI L, et al. Development of Deterministic Networking Techniques for Industrial Manufacturing[J].Strategic Study of CAE,2021,23(02):22-29.

[6] A. Nasrallah, A. S. Thyagaturu, Z. Alharbi, et al. Ultra-low latency (ULL) networks: The IEEE TSN and IETF DetNet standards and related 5G ULL research[J]. IEEE Communications Surveys & Tutorials, 21(1):88-145, 2019.

[7] Alagoz F, Gur G. Energy efficiency and satellite networking: A holistic overview[J]. Proceedings of the IEEE,2011, 99(11): 1954-1979.

[8] Vasavada Y, Gopal R, Ravishankar C, et al. Architectures for next generation high throughput satellite systems[J]. International Journal of satellite communications and networking, 2016, 34(4): 523-546.

[9] Hu Y, Li V O K. Satellite-based internet: a tutorial[J]. IEEE Communications Magazine, 2001, 39(3): 154-162.

[10] 张羽,叶芝慧.星间通信中带宽和功率联合分配算法[J].电子测量技术, 2016, 39(08): 181-185.

ZHANG Y, YE Z H, Joint bandwidth and power allocation algorithm in inter-satellite communication[J]. Electronic Measurement Technology, 2016, 39(08): 181-185.

[11] Kreutz D, Ramos F M V, Verissimo P E, et al. Software-defined networking: A comprehensive survey[J]. Proceedings of the IEEE, 2014, 103(1): 14-76.

[12] Kim H, Feamster N. Improving network management with software defined networking[J]. IEEE Communications Magazine, 2013, 51(2): 114-119.

[13] 苏建忠,张华宇,朱海龙. 结合 SDN 控制器的 TSN 周期性带宽预留值计算方法[J]. 通信学报,2021,42(10):23-31.

SU J Z, ZHANG H Y, ZHU H L. Computing method for periodic stream reservation in TSN combined withSDN controller[J]. Journal on Communications, 2021,42(10):23-31.

[14] 王奎宇,宋晓勤,缪娟娟,等. 基于 SDN 的高性能 QoS 保障低轨道卫星星间路由算法[J]. 计算机工程,2022,48(5):185-190,199.

WANG K Y，SONG X Q，MIAO J J, et al. SDN-Based High-Performance and QoS Guaranteed

Inter-Satellite Routing Algorithm for Low-Earth Orbit Satellites[J]. Computer Engineering, 2022, 48(5):

185-190,199.

[15] 张浩然. 异构无线网络联合资源管理中接入控制策略的研究[D].中国科学技术大学,2013.ZHANG H R. Radio Access Control in Radio Resource Management of Heterogeneous Wireless

Networks[D]. University of Science and Technology of China, 2013

[16] Chen Q, Meng W, Li S, et al. Civil Aircrafts Augmented Space- Air-Ground-Integrated Vehicular Networks: Motivation, Breakthrough, and Challenges[J]. IEEE Internet of Things Journal, 2021, 9(8):
5670-5683.
[17] Zhang T, Li J, Li H, et al. Application of time-varying graph theory over the space information networks[J]. IEEE Network, 2020,34(2):179-185
[18] 刘坤.低轨卫星网络的随机网络演算分析[D]. 陕西:西安电子科技大学,2017.
LIU K, Analysis of LEO Satellite Network with Stochastic Network Calculus[D]. Shanxi: Xidian University,2017

[19] 罗倩，鲁勇，刘魁，等.面向 SDN 的基于节点重要性的动态带宽预留算法.西北师范大学学报(自然科学版),2020,56(06):53-62.
LUO O, LU Y, LIU K, et al. SDN oriented dynamic bandwidth reservation algorithm based on nodeimportance[J]. Journal of Northwest Normal University (Natural Science) 2020, 56(06):53-62.

(20] Cao I, Ma Z, Xie J, et al. Towards tenant demand-aware bandwidth allocation strategy in cloud datacenterlJFuture Generation Computer Systems, 2020,105: 904-915.

[21] 李硕朋，方娟,陈肯.基于 SRv6 的确定性网络服务共享保护方案. 通信学报,2021,42(10):32-42.
LI S P, FANG J, CHEN K. DetNet service share protection scheme based on SRv6[J]. Journal on Communications.2021,42(10):32-42.

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