Ning JIN, Qingyang WANG. Research on clustering algorithm based 6G typical usage scenarios[J]. Telecommunications science, 2022, 38(1): 121-131.
DOI:
Ning JIN, Qingyang WANG. Research on clustering algorithm based 6G typical usage scenarios[J]. Telecommunications science, 2022, 38(1): 121-131. DOI: 10.11959/j.issn.1000-0801.2022013.
Research on clustering algorithm based 6G typical usage scenarios
Compared with the three classic 5G usage scenarios
the content and types of 6G typical usage scenarios will be more abundant and diverse.How to refine 6G usage scenarios objectively and efficiently has become a major challenge.Based on this
the clustering algorithm was used to study the 6G usage scenarios.Firstly
the 6G service and performance indicators were considered.Then
the demand values of 6G service were collected and the indicators were scored.Finally
the sample data were analyzed by different clustering algorithms.According to the clustering results
eight typical usage scenarios of 6G were proposed
which could provide some reference for 6G research in the industry.
WANG Q Y , JIN N . Preliminary study on IMT-2030 application scenarios based on clustering algorithm [J ] . Mobile Communications , 2021 , 45 ( 4 ): 110 - 114 .
HAN J W , KAMBER M . 数据挖掘概念与技术 [M ] . 范明,孟小峰,译.北京 : 机械工业出版社 , 2001 .
HAN J W , KAMBER M . Data mining concept and technology [M ] . Translated by FAN M,MENG X F . Beijing : Machinery Industry Press , 2001 .
MOHAMMED J Z , WAGNER M J . Data mining and analysis:concepts and algorithms [M ] . Beijing : Posts and Telecom Press , 2017 .
ZHAO Y J , YU G H , XU H Q . 6G mobile communication networks:vision,challenges,and key technologies [J ] . Scientia Sinica (Informationis) , 2019 , 49 ( 8 ): 963 - 987 .
YUAN X Z , PENG L , ZHANG L F . Requirement and challenge of holographic-type communication to the future network [J ] . Telecommunications Science , 2020 , 36 ( 12 ): 59 - 64 .
FuTURE Mobile Communication Forum . White paper:6G services and requirements [R ] . 2020 .
Samsung Research . 6G:The next hyper-connected experience for AI [R ] . 2020 .
IEC . Communication networks and systems for power utility automation-part:wide area network engineering guidelines:61850-90-12 [S ] . 2015 .
大唐移动 . 全域覆盖.场景智联——6G 愿景与技术趋势白皮书 [R ] . 2020 .
DTmobile . Global coverage.scene intelligence alliance — 6G vision and technology trend white paper [R ] . 2020 .
中国移动通信有限公司研究院 . 2030+愿景与需求白皮书 [R ] . 2019 .
China Mobile Research Institute . 2030 + Vision and Demand Report [R ] . 2019 .
未来移动通信论坛 . 面向云网融合服务的 6G 网络技术 [R ] . 2020 .
FuTURE Mobile Communication Forum . 6G network technology for cloud network convergence service [R ] . 2020 .
VISWANATHAN H , MOGENSEN P E . Communications in the 6G era [J ] . IEEE Access , 2020 , 8 : 57063 - 57074 .
CUI C F , WANG S , LI K , et al . 6G vision,scenarios and network requirements [J ] . Journal of Beijing University of Posts and Telecommunications , 2020 , 43 ( 6 ): 10 - 17 .
IMT-2030(6G)推进组 . 6G 总体愿景与潜在关键技术白皮书 [R ] . 2021 .
IMT-2030(6G) Promotion Group . 6G overall vision and potential key technology white paper [R ] . 2021 .
ITU-R.M . 2410-0:Minimum requirements related to technical performance for IMT-2020 radio interface(s) [R ] . 2017 .