Telecommunications Science ›› 2022, Vol. 38 ›› Issue (6): 31-41.doi: 10.11959/j.issn.1000-0801.2022130
• Topic: New Network Technology • Previous Articles Next Articles
Xiaolan WAN, Jinglin LI, Kebin LIU
Revised:
2022-06-06
Online:
2022-06-20
Published:
2022-06-01
CLC Number:
Xiaolan WAN, Jinglin LI, Kebin LIU. Cloud native network creating a new era of intelligent application[J]. Telecommunications Science, 2022, 38(6): 31-41.
[1] | 姚惠娟, 陆璐, 段晓东 . 算力感知网络架构与关键技术[J]. 中兴通讯技术, 2021,27(3): 7-11. |
YAO H J , LU L , DUAN X D . Architecture and key technologies for computing-aware networking[J]. ZTE Technology Journal, 2021,27(3): 7-11. | |
[2] | 贾焰, 方滨兴, 汪祥 ,等. 泛在网络空间大数据“雾云计算”软件体系结构[J]. 中国工程科学, 2019,21(6): 114-119. |
JIA Y , FANG B X , WANG X ,et al. Software architecture of fogcloud computing for big data in ubiquitous cyberspace[J]. Strategic Study of CAE, 2019,21(6): 114-119. | |
[3] | IMT-2030(6G)推进组. 6G网络总体愿景与潜在关键技术白皮书[R]. 2021. |
IMT-2030 (6G) Promotion Group. 6G network overall vision and potential key technologies white paper[R]. 2021. | |
[4] | 刘光毅, 邓娟, 郑青碧 ,等. 6G智慧内生:技术挑战、架构和关键特征[J]. 移动通信, 2021,45(4): 68-78. |
LIU G Y , DENG J , ZHENG Q B ,et al. 6G native intelligence:technical challenges,architecture and key features[J]. Mobile Communications, 2021,45(4): 68-78. | |
[5] | 算力网络串联数字社会SPN奠定坚实底座[EB]. 2022. |
Computing power network series digital society SPN lays a solid foundation[EB]. 2022. | |
[6] | 赵慧玲 . 边缘计算与算力网络专题导读[J]. 中兴通讯技术, 2021,27(3): 1-2. |
ZHAO H L . A special topic guide to edge computing and computing power networks[J]. ZTE Technology Journal, 2021,27(3): 1-2. | |
[7] | 江伟玉, 刘冰洋, 王闯 . 内生安全网络架构[J]. 电信科学, 2019,35(9): 20-28. |
JIANG W Y , LIU B Y , WANG C . Network architecture with intrinsic security[J]. Telecommunications Science, 2019,35(9): 20-28. | |
[8] | 江伟玉, 刘冰洋, 王闯 . 内生安全网络架构[J]. 电信科学, 2019,35(9): 20-28. |
JIANG W Y , LIU B Y , WANG C . Network architecture with intrinsic security[J]. Telecommunications Science, 2019,35(9): 20-28. | |
[9] | 中国移动通信有限公司研究院. 2030+愿景与需求(第二版)[R]. 2020. |
China Mobile Research Institute. 2030+ vision and needs (2nd edition)[R]. 2020. | |
[10] | 中国移动通信有限公司研究院. 6G 服务化 RAN 白皮书(2022)[R]. 2022. |
China Mobile Research Institute. 6G service-oriented RAN white paper (2022)[R]. 2022. | |
[11] | 林奕琳, 何宇锋, 刘玉芹 ,等. 5G 网络能力开放部署及关键技术方案[J]. 移动通信, 2021,45(6): 81-87. |
LIN Y L , HE Y F , LIU Y Q ,et al. Research on 5G network capability exposure deployment and key technical solutions[J]. Mobile Communications, 2021,45(6): 81-87. | |
[12] | 朱斌, 林琳, 胡悦 ,等. 面向行业的5G网络能力开放发展策略研究[J]. 邮电设计技术, 2020(7): 1-6. |
ZHU B , LIN L , HU Y ,et al. Research on industry oriented 5G network capability exposure development strategy[J]. Designing Techniques of Posts and Telecommunications, 2020(7): 1-6. | |
[13] | 杨红梅 . 5G催生网络能力开放[EB]. 2020. |
YANG H M . 5G promoted the opening of network capability[EB]. 2020. | |
[14] | 网络5.0内生安全体系架构[EB]. 2020. |
Network 5.0 endogenous security architecture[EB]. 2020. |
[1] | Kaihui GAO, Dan LI. Data center networks with performance guarantee: a survey [J]. Telecommunications Science, 2023, 39(6): 1-21. |
[2] | Yu LI, Zhaozhao LI, Ping LYU, Qinrang LIU. Design on the full-dimensional reconfiguration polymorphic network switching chip architecture [J]. Telecommunications Science, 2023, 39(6): 22-32. |
[3] | Jiong LI, Yuxiang HU, Pengshuai CUI, Le TIAN, Yongji DONG. Research on incremental deployment mechanism of network modality for polymorphic network environment [J]. Telecommunications Science, 2023, 39(6): 33-43. |
[4] | Zehua GUO, Haowen ZHU, Tongwen XU. Network modal innovation for distributed machine learning [J]. Telecommunications Science, 2023, 39(6): 44-51. |
[5] | Aihua LIU, Hanguang LUO, Jianzhong WEN, Zhiguo ZHAN. Research on isolated-forwarding technology oriented polymorphic network [J]. Telecommunications Science, 2023, 39(6): 52-60. |
[6] | Tao ZOU, Huifeng ZHANG, Wanxin GAO, Qi XU, Congqi SHEN, Jun ZHU, Zhongxia PAN, Xingchang GUO. Research on polymorphic network application technology oriented intelligent manufacturing [J]. Telecommunications Science, 2023, 39(6): 61-72. |
[7] | Yaoyu HE, Chao ZHANG. Airworthiness analysis of low earth orbit satellite communication technology for UAV application [J]. Telecommunications Science, 2023, 39(6): 96-104. |
[8] | Fubin WANG, Shiyuan SUN, Menghui WANG, Fang YANG, Xiaofei WANG, Jian SONG. Key technologies of visible light communications with multiple LEDs [J]. Telecommunications Science, 2023, 39(5): 3-10. |
[9] | Tianyang MA, Xiongbin CHEN, Yiwu XU. Zero power light labeling based on visible light communication [J]. Telecommunications Science, 2023, 39(5): 20-27. |
[10] | Sicong LIU, Danping SU, Tiankuo WEI, Xianyao WANG. Multi-node cooperation based robust visible light intelligent positioning [J]. Telecommunications Science, 2023, 39(5): 28-41. |
[11] | Jiawei HU, Xiaoqian LIU, Xinke TANG, Yuhan DONG. Trajectory planning of UUV-assisted UWOC systems based on DQN [J]. Telecommunications Science, 2023, 39(5): 42-47. |
[12] | Xiaoqian LIU, Xinke TANG, Yuhan DONG. Spatial channel modeling for MIMO underwater wireless optical links [J]. Telecommunications Science, 2023, 39(5): 48-56. |
[13] | Sihong ZHANG, Jian ZHANG. Impact and countermeasures of generative AI represented by ChatGPT on the telecom industry [J]. Telecommunications Science, 2023, 39(5): 67-75. |
[14] | Xiaoliang MA, Ying LIU, Dequan DU, Lingling AN. Key technologies and development trends of intelligent customer service for operators [J]. Telecommunications Science, 2023, 39(5): 76-89. |
[15] | Xinxin TANG, Xuewen ZENG, Zhiyuan LING, Lei SONG. Overview of programmable data plane technology [J]. Telecommunications Science, 2023, 39(4): 1-16. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||
|