Building end to end service guarantee system of IoT covering“terminal pipe and cloud” based on signaling big data

Xuli YE; Qiang ZENG; Liyu LIU; Yu SU; Meng KANG

doi:10.11959/j.issn.2096-3750.2018.00057

您当前的位置：

首页 >

文章列表页 >

Building end to end service guarantee system of IoT covering“terminal pipe and cloud” based on signaling big data

Service and Application | 更新时间：2024-06-05

- Building end to end service guarantee system of IoT covering“terminal pipe and cloud” based on signaling big data
- Chinese Journal on Internet of Things Vol. 2, Issue 2, Pages: 85-93(2018)
- 作者机构：
- 作者简介：
- 基金信息：
- DOI：10.11959/j.issn.2096-3750.2018.00057
  CLC： TP929.5
- Published：30 June 2018，
  
  Published Online：2018-06，
- 稿件说明：
移动端阅览
XULI YE, QIANG ZENG, LIYU LIU, et al. Building end to end service guarantee system of IoT covering“terminal pipe and cloud” based on signaling big data. [J]. Chinese journal on internet of things, 2018, 2(2): 85-93.
DOI：

XULI YE, QIANG ZENG, LIYU LIU, et al. Building end to end service guarantee system of IoT covering“terminal pipe and cloud” based on signaling big data. [J]. Chinese journal on internet of things, 2018, 2(2): 85-93. DOI： 10.11959/j.issn.2096-3750.2018.00057.

摘要

随着无线业务类型向海量、大连接、小流量等场景演进，移动互联网已经大步迈向物联网时代。物联网业务承载于运营商所部署的无线网络之上，其在提供丰富行业应用的同时也使运营商面临着巨大的端到端后向业务保障挑战。基于此，提出并构建一种基于信令大数据并覆盖“端管云”的物联网端到端业务保障系统，解决物联网在用户、终端、无线、传输、核心网、数通6种网元以及网络接入、业务接入、网络切换、业务使用质量 4 个阶段面临的六元四阶跨专业协同定界难问题，助力运营商完成从传统只关注网络设备的 KPI（key performance indicator）指标运维模式向注重业务感知的KQI（key quality indicator）端到端全流程业务保障机制转型，为物联网应用提供端到端全流程一键式定位保障能力。

Abstract

With the evolution of wireless communication service types to massive

large connections

small traffic scenarios

mobile Internet has marched into the Internet of things.Carrying on business networking wireless network deployment in communication operators

which provides a wealth of industry applications also enable operators facing huge end-to-end backward challenges to business.An end to end service guarantee system based on the signaling big data and covering the “terminal pipe and cloud” was proposed and constructed

and the six network dimensions in the user

terminal

wireless

transmission

core network and digital network was solved

as well as the four stages of network access

service access

network switching

and service quality of six dimensions and four stages facing the Internet of things.In order to solve the problem of inter professional collaboration and demarcation

the assistant operator completes the transformation from the traditional KPI (key performance indicator) index mode to the service aware KQI (key quality indicator) end to end full process business guarantee mechanism

and provides the end to end full process one key positioning ability guarantee for the Internet of things applications.

关键词

物联网业务保障六元四阶端管云信令大数据

Keywords

Internet of thingscustomer perceptionSDFSterminal pipe and cloudsignaling big data

references

邬贺铨 . 物联网技术与应用的新进展[J]. 物联网学报, 2017,1(1): 1-6.

WU H Q . Technology and application progress on Internet of things[J]. Chinese Journal on Internet of Things, 2017,1(1): 1-6.

张云勇, 贾雪琴 . 物联网业务发展挑战及 NB-IoT 运营策略[J]. 物联网学报, 2017,1(1): 76-80.

ZHANG Y Y, JIA X Q . Low power enabled IoT services faced challenges and NB-IoT operation strategies[J]. Chinese Journal on Internet of Things, 2017,1(1): 76-80.

3GPP.Technical specification group radio access network E-UTRA and E-UTRAN overall description stage 2 (Release 13):TS36.300[S].

中国移动集团.LTE 信令监测及互联网 KQI 指标规范 2.0[S].2015-03-10.

China Mobile Communications Group Co.,Ltd.LTE ＆ Internet performance indicator based on signaling monitoring and DPI v2.0[S].2015-03-10.

中国移动通信集团.中国移动统一DPI设备技术规范-LTE信令采集解析服务器接口规范v2.2.0[S].2016-04-19.

China Mobile Communications Group Co.,Ltd.Technical specification of deep packet inspection equipment for CMCC (LTE signalling collection server interface part) v2.2.0[S].2016-04-19.

3GPP.Service requirements for machine-type-communications:TS22.368 v10.1.0[S].

华为技术有限公司.面向 U-vMOS 的移动承载网络优化和运维建议白皮书[S].2015-10-04.

HUAWEI Technologies Co.,Ltd.Mobile U-vMOS oriented network optimization and maintenance suggestions of white paper[S].2018-10-04.

ZHANG P, JI Y, FENG Z Y . Mobile ubiquitous network environment(1)[J]. ZTE Communications, 2007,13(1): 58-62.

JI Y, ZHANG P, HU Z ,et al. Towards mobile ubiquitous service environment[J]. Wireless Personal Communications on International Journal, 2006,38(1): 67-78.

WU Q H, DING G, DU Z Y ,et al. A cloud-based architecture for the Internet of spectrum devices over future wireless networks[J]. IEEE Access, 2017(4): 2854-2862.

XIE Y Z . NB-IoT technology detailed solution and industry application[M]. Beijing: Science PressPress, 2017.

MOLINARO A, IERA A, AGUIAR R L ,et al. Information centric networking for the Internet of things:challenges and opportunities[J]. IEEE Network, 2016,30(2): 92-100.

MIORANDI D, SICARI S, PELLEGRINI F D ,et al. Internet of things:vision,applications and research challenges[J]. Ad Hoc Networks, 2012,10(7): 1497-1516.

Views

1278

下载量

CSCD

Alert me when the article has been cited

提交

Tools

Publicity Resources

Reinforcement learning-based channel access mechanism for multi-base station slotted Aloha with cooperative reception

A survey of federated learning for 6G networks

New flexible sensor for the internet of things

Optical wireless communication and internet of things

Study of international standard ISO/IEC 30144: 2020 applied in intelligent substation auxiliary monitoring

Related Author

HUANG Yuankang

ZHAN Wen

SUN Xinghua

Guanglei GENG

Bo GAO

Ke XIONG

Pingyi FAN

Yang LU

Related Institution

Sun Yat-sen University

Sun Yat-sen University Shenzhen Campus

School of Computer and Information Technology, Beijing Jiaotong University

Engineering Research Center of Network Management Technology for High Speed Railway of Ministry of Education, Beijing Jiaotong University

National Research Center for Information Science and Technology, Tsinghua University

⁰