2021, Volume 23, Issue 2
Strategic Study of CAE >> 2021, Volume 23, Issue 2 doi: 10.15302/J-SSCAE-2021.02.002
Development Strategies for New Network Industry
1. State Key Laboratory of Networking and Switching Technology, Beijing 100876, China;
2. Purple Mountain Laboratories, Nanjing 211111, China;
3. Guangdong Communications and Networks Institute, Guangzhou 510070, China
Next Previous
Abstract
As an innovation-led, cross-disciplinary frontier field, the new network industry is crucial for promoting the innovation and application of the new-generation information technology as well as the integrated development of industrialization and informatization in China. It is also a powerful means for seizing dominance in emerging industries and economic growth. This study examines the development demand for new network technologies and elaborates on solutions for various application scenarios, highlighting its industrialization value. We made a detailed review of the macro development trend and the current technology application in the new network industry in China and abroad. We conclude the development ideas of China’s new network industry and study the key development directions of related industries. Then, we propose specific development goals for each subdivision in the short-, medium-, and long-term phases. The study shows that a new network industry strategic planning system and cutting-edge basic theory innovation research are urgently needed for China’s new network industry. The key technology directions for this industry includes new network architecture and basic theory, ultra-low latency/deterministic latency network, network operating system, cloud–network convergence, and programmable network.
Keywords
new network ; consumer network ; production Internet ; space–ground integrated network ; value analysis
References
[ 1 ] Zhang J, Huang T, Wang S, et al. Future Internet: Trends and challenges [J]. Frontiers of Information Technology & Electronic Engineering, 2019, 20(9):1185 –1194. link1
[ 2 ] Li Y H, Zhang P, Jin D, et al. Application’s needs and challenges for future networks [J]. Telecommunication Science, 2019, 35(8): 49–64. Chinese. link1
[ 3 ] Huang T, Liu J, Wang S, et al. Survey of the future network technology and trend [J]. Journal on Communications, 2021, 42(1): 130–150. Chinese. link1
[ 4 ] Fang C, Guo S, Wang Z W, et al. Data-driven intelligent future network: Architecture, use cases, and challenges [J]. IEEE Communications Magazine, 2019, 57(7): 34 –40. link1
[ 5 ] Rabay’a A, Schleicher E, Graffi K. Fog c omputing with P2P: Enhancing fog computing bandwidth for IoT scenarios [C]. Atlanta: 2019 IEEE International Congress on Cybermatics, 2019. link1
[ 6 ] Xu G L, Lin G Q. New thinking on the transformation and upgrading of traditional manufacturing industry under the background of Industry 4.0 [J]. Shanghai Journal of Economics, 2015 (10): 107 –113. Chinese. link1
[ 7 ] Shen X M, Cheng N, Zhou H B, et al. Space-air-ground integrated networks: Review and prospect [J]. Chinese Journal on Internet of Things, 2020, 4(3): 3 –19. Chinese. link1
[ 8 ] Wu W. Survey on the development of space -integrated-ground information network [J]. Space-IntergratedGround Information Networks, 2020, 1(1): 1–16. Chinese. link1
[ 9 ] Berman M, Chase J S, Landweber L, et al. GENI: A federated testbed for innovative network experiments [J]. Computer Networks, 2014, 61: 5–23. link1
[10] Zhang L, Estrin D, Burke J, et al. Named data networking (NDN) project [EB/OL]. (2010 -10-09) [2020- 12-15]. http://www2. cs.arizona.edu/~bzhang/paper/ndn -tr.pdf. link1
[11] Fiorini G L, Vasile A. European Commission–7th framework programme: The collaborative project on European sodium fast reactor (CPESFR) [J]. Nuclear Engineering and Design, 2011, 241(9): 3461 –3469. link1
[12] Fotiou N, Nikander P, Trossen D, et al. Developing information networking fu rther: From PSIRP to PURSUIT [C]. Athens: International Conference on Broadband Communications, Networks and Systems, 2010. link1
[13] Li L M, Zhang W B, Chai X D, et al. Design of data synchronous scquisition system of multi -sensor [J]. Measurement & Control Technology, 2018, 37(7): 109–113. Chinese. link1
[14] Huang Z L, Chen N, Liu J S, et al. Design and implementation of general SDN system based on OpenDaylight and white-box machine [J]. Guangdong Communication Technology, 2017, 37(8): 12 –22. Chinese. link1
[15] Crago S P, Dunn K, Eads P, et al. Heterogeneous cloud computing [C]. Austin: 2011 IEEE International Conference on Cluster Computing, 2011. link1
[16] Tan H, Guan H T. Applications of NFV technology in CENI and the network of telecom carries [J]. Information and Communications Technology and Policy, 2021, 47(1): 90 –96. Chinese. link1
[17] Yang M, Li Y, Jin D P, et al. Software-defined and virtualized future mobile and wireless networks: A survey [J]. Mobile Networks and Applications, 2015, 20(1): 4 –18. link1
[18] Zhang Q, Mao D F, Jia M, et al. Design and research of next generation IP network operation system architecture towards SDN/ NFV [J]. Telecommunications Technology, 2017 (3): 21 –24. Chinese. link1
[19] Jiang W Y, Liu B Y, Wang C. Network architecture with intrinsic security [J]. Telecommunication Science, 2019, 35(9): 20–28. Chinese. link1
[20] Elmeadawy S, Shubair R M. 6G wireless communications: Future technologies and research challenges [C]. Ras Al Khaimah: 2019 International Conference on Electrical and Computing Technologies and Applications, 2019. link1
京公网安备 11010502051620号
