Time-Sensitive Satellite Internet Based on Uniform Content Labels

Authors

  • Jie Shen 1State Grid Jibei Zhangjiakou Wind and Solar Energy Storage and Transportation New Energy Co., Ltd, China 2Beijing University of Posts and Telecommunications, Beijing, China https://orcid.org/0000-0001-6567-7459
  • Wenqi Dong 1State Grid Jibei Zhangjiakou Wind and Solar Energy Storage and Transportation New Energy Co., Ltd, China 2Beijing University of Posts and Telecommunications, Beijing, China
  • Jing Wang State Grid Jibei Zhangjiakou Wind and Solar Energy Storage and Transportation New Energy Co., Ltd, China
  • Peng Zang State Grid Jibei Zhangjiakou Wind and Solar Energy Storage and Transportation New Energy Co., Ltd, China
  • Xuewei Shi State Grid Jibei Zhangjiakou Wind and Solar Energy Storage and Transportation New Energy Co., Ltd, China
  • Yang Wang State Grid Jibei Zhangjiakou Wind and Solar Energy Storage and Transportation New Energy Co., Ltd, China

DOI:

https://doi.org/10.13052/jwe1540-9589.21217

Keywords:

Unified Content Label (UCL), Internet web, Time-sensitive network (TSN).

Abstract

For satellite Internet the content was examined by location and time of day, as well as within the context of online social networks. The ground Information-Centric Networking (ICN) is a paradigm shift from host-to-host Internet Protocol (IP)-based communication to content-based communication. With the development and universal application of satellite technology, an important way to expand the function of satellites is setting up inter-satellite networks to make them work together. The Internet and the Global Positioning System are based on the dual structure network and the Uniform Content Label UCL national standard. Through the integration of these two inventions, the integration of time and space is realized, creating an endogenous security environment of both mathematics and physics that is self-consistent in cyberspace, is expected to bring a breakthrough in principle for cracking network security challenges.

Downloads

Download data is not yet available.

Author Biographies

Jie Shen, 1State Grid Jibei Zhangjiakou Wind and Solar Energy Storage and Transportation New Energy Co., Ltd, China 2Beijing University of Posts and Telecommunications, Beijing, China

Jie Shen, obtained a bachelor’s degree from Shanghai Jiao tong University and a master’s and doctorate in electronics from Beijing University of Posts and Telecommunications, Beijing, P.R.C. He obtained the title of communications engineer in 2004, and obtained the title of senior engineer in communications in 2009. In 2014, he was awarded the title of professor-level senior engineer in electronics respectively. His research interests include: wireless and optical communications, data communications, quantum information, and microelectronics.

Wenqi Dong, 1State Grid Jibei Zhangjiakou Wind and Solar Energy Storage and Transportation New Energy Co., Ltd, China 2Beijing University of Posts and Telecommunications, Beijing, China

Wenqi Dong, obtained a Master degree from Beijing University of Chemical Technology, and obtained his second Master degree from North China Electric Power University,Senior Engineer of State Grid Jibei Zhangjiakou Wind and Solar Energy Storage Storage and Transportation New Energy Co. Ltd. The main research directions are: Multi-type energy storage technology, Energy Internet technology, wireless and optical communications.

Jing Wang, State Grid Jibei Zhangjiakou Wind and Solar Energy Storage and Transportation New Energy Co., Ltd, China

Jing Wang received her B.Sc. degree in Electrical Engineering from Hebei Normal University of Science & Technology; M.Sc. degree in Business Administration from North China Electric Power University.

Jing Wang has key positions in the field of information and communication at State Grid Jibei Zhangjiakou Wind and Solar Energy Storage and Transportation New Energy Co., Ltd since 2012. As a Telecommunication expert, she has rich experience in the research and management of new energy communication technology. She is committed to researching the wireless communication technology in power control and acquisition services, in order to promote the upgrade of power grid to energy Internet and build a new power system supported by IoT Communication and digital technology.

Peng Zang, State Grid Jibei Zhangjiakou Wind and Solar Energy Storage and Transportation New Energy Co., Ltd, China

Peng Zang, obtained a bachelor’s degree from China University of Mining and Technology, pursuing a master’s degree in electrical engineering at China Agricultural University. The main research directions are: wind-solar storage operation control technology.

Xuewei Shi, State Grid Jibei Zhangjiakou Wind and Solar Energy Storage and Transportation New Energy Co., Ltd, China

Xuewei Shi, Bachelor of Hebei University of Science & Technology, New energy testing technical engineer of State Grid Jibei Zhangjiakou Power Wind and Solar Storage Company. His main research directions are: new energy power generation technology, large-scale energy storage operation and maintenance technology.

Yang Wang, State Grid Jibei Zhangjiakou Wind and Solar Energy Storage and Transportation New Energy Co., Ltd, China

Yang Wang, obtain Master from North China Electric Power University, Engineer of State Grid Jibei Zhangjiakou Wind and Solar Energy Storage and Transportation New Energy Co. Ltd. The main research directions are: wind-solar storage and transportation demonstration project and economic analysis.

References

Yang Peng, Li Youping. Dual-structure Internet that supports content intelligent governance[J]. Journal on Communications, 2019, 040(009):1–14.

Wang Jingli, Li Xingsen. Elementary expression and construction strategy of Uniform Content Label [J]. Journal of Guangdong University of Technology, 2014(02): 14–20.

Li Youping, Cheng Guang, Yang Peng. Space-time assembly creates endogenous security in cyberspace[J]. Cyberspace Security, 2020, v.11; No.126(08):5–9.

Cohen R., Havlin S. Scale-Free Networks Are Ultrasmall[J]. Physical Review Letters, 2003, 90(5): 058701.

Yang Hui, Bai Wei, Zhang Jie. Research on key technologies of time-sensitive spatial information network[J]. Radio Communication Technology, 2017, 43(003): 8–12.

Yang Peng, Li Youping. Universal model and realization mode of broadcast network architecture[J]. Chinese Journal of Electronics, 2015(5).

Yang Peng, Zhang Xiaogang, Li Youping, etc. A video recommendation method and device based on UCL semantic indexing.

Ji Yeli. Research on SDN-based routing scheme for the nearest distribution network of content. Beijing University of Posts and Telecommunications, 2019.

Zhang Chi, Han Li, Yang Hong. Key technologies and standardization status of time-sensitive networks[J]. Automation Instrumentation, 2020, v.41; No.463(03):100–104.

Zhang Han, Huang Xiangyue, Meng Xiangjun, et al. Research on SDN/NFV-based world-ground integration network architecture[J]. Military Communication Technology, 2017(02): 35–40.

Yin Zhizhong, Zhang Jiguang, Zhou Xianwei, et al. Low-latency multi-layer satellite network based on multi-region division[J]. Telecommunications Technology, 2010, 50(002): 78–83.

Sheng Min, Li Jiandong, Shi Yan. Delay-sensitive adaptive routing protocol applied to Ad Hoc network[J]. High Technology Communications, 2003(06):1–4.

Sun Xuehai. The influence of satellite communication delay on information network [J]. Shanxi Electronic Technology, 1999, 000(001): 8–9.

Wang He. Research on performance optimization technology of satellite network transmission protocol [D]. Harbin Institute of Technology, 2011.

Ma Huan. Efficient transmission of delay-sensitive services in autonomous wireless networks [D]. Xidian University, 2013.

Hou Y, Diao Y. A uniform content label push method based on DRM broadcasting[C]. International Conference on Systems & Informatics. IEEE, 2017.

Liu Zhe. Exploration of exporting files from highly sensitive network to low sensitive network[J]. Computer Engineering and Design, 2018, 039(001):55–60.

Ma Huan. Efficient transmission of delay-sensitive services in autonomous wireless networks [D]. Xidian University.

Liu Chang, Shi Huipeng, Li Wei. Analysis of International Coordination Between Satellite Networks [C]// Proceedings of the 2014 National Wireless and Mobile Communication Conference. 2014.

Cong Peizhuang, Tian Ye, Gong Xiangyang, et al. Overview of key protocols and application scenarios of time-sensitive networks[J]. Telecommunications Science, 2019, v.35(10):37–48.

Wang Shuo. Time-sensitive network technology and its application in the Industrial Internet [J]. Electronic Technology and Software Engineering, 2018, No.143(21):34+115.

Miao Jiansong, Wang Pengjie, Yang Zeyun. Satellite Internet text sensitive information detection method and device based on deep learning:, CN111078879A[P]. 2020.

Yuan Linfeng, Cheng Wenqing, Du Xu, et al. Sensor network routing protocol based on restricted equivalent delay [J]. Small Microcomputer System, 2007, 28(009):1549–1553.

Ru Xulong. Research on Time Synchronization Technology in Time Sensitive Network [D]. Xidian University.

Peng Li, Jiang Mingyan. Anti-delay sensitivity cross-layer adaptive resource allocation scheme[J]. Application Research of Computers, 2010(03):1122–1125.

Guo Xiong, Yang Hong, Li Mengliang. Edge computing and time-sensitive network integration technology research and standard progress[J]. China New Telecommunications, 2020, v.22(05):63–65.

Song Huazhen. Overview of time-sensitive network technology [J]. Automation Instrumentation, 2020, 041(002):1–9.

Downloads

Published

2022-01-22

How to Cite

Shen, J. ., Dong, W. ., Wang, J. ., Zang, P. ., Shi, X. ., & Wang, Y. . (2022). Time-Sensitive Satellite Internet Based on Uniform Content Labels. Journal of Web Engineering, 21(02), 523–544. https://doi.org/10.13052/jwe1540-9589.21217

Issue

Section

Articles