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Journal of library and information science in agriculture ›› 2019, Vol. 31 ›› Issue (3): 35-47.doi: 10.13998/j.cnki.issn1002-1248.2019.03.19-0237

• Research paper • Previous Articles     Next Articles

A Comparative Analysis of the Research on the Internet of Things Between CHINA-US Based on Bibliometric

XU Zhaoyuan1, TAI Jun2, FAN Lihua3   

  1. 1.School of Software, Shanxi Agricultural University, Shanxi Jinzhong 030801, China;
    2.Library, North University of China, Shanxi Taiyuan 030051, China;
    3.Shanxi Baixin Information Technology Co., Shanxi Taiyuan 030051, China
  • Received:2019-02-16 Online:2019-03-05 Published:2019-06-04

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Abstract: In order to compare the differences in the research statusin of the internet of things between China and the United States, objectively understand the strength, level and status of scientific research in the field of the internet of things in China, and provide valuable information for the rapid development of the internet of things industry in China, this paper takes SCI academic papers in the field of the internet of things in Mainland China and the United States from 2009 to 2018 as data sources, reveals the current research situation in the field of the internet of things between China and the United States from the perspectives of the output of the papers, disciplines, keywords and highly cited papers by bibliometrics and word cloud analysis. The results show that although the output of the papers in China is stronger than that in the United States, there is a gap in the influence of academic papers between China and the United States. In the future, China should further enhance its independent innovation ability, broaden the breadth and depth of the internet of things research, especially strengthen the research and development of key technologies and core technologies with independent intellectual property rights, enhance its international influence and competitiveness.

Key words: internet of things, SCI, scientific papers, bibliometric, word cloud analysis

CLC Number: 

  • G353.1
[1] 孙其博,刘杰,黎羴,范春晓,孙娟娟.物联网:概念、架构与关键技术研究综述[J].北京邮电大学学报,2010,33(03):1-9.
[2] International telecommunication union,internet reports 2005: the internet of things[R]. reports 2005: the internet of things[R].Geneva:ITU,2005.2:70-86.
[3] 夏聃. 国外物联网产业发展概览[J].中国信息安全,2017(08):62-66.
[4] 周拴龙. 美国物联网政策及对我国的启示[J].现代商贸工业,2014,26(16):61-63.
[5] 陈骞. 国外物联网政策动向[J].上海信息化,2017(06):77-80.
[6] 李红娜,阿旺次仁,李斌绪,叶婧,朱昌雄.兽用抗生素研究的文献计量学分析[J].农业环境科学学报,2017,36(11):2297-2306.
[7] 文司华. 能量采集破解物联网发展困局[J].集成电路应用,2014(09):38-40.
[8] Slimming Panda.边缘计算——物联网网络安全新前线[J].网信军民融合,2018(11):73-76.
[9] 王喜文. 新一轮工业革命中的"中国智造"[J].中国经济报告,2016(02):59-61.
[10] 本期热词:工业物联网[J].中国战略新兴产业,2016(10):60.
[11] 郑树泉. 工业物联网大数据平台架构与应用[J].软件产业与工程,2016(06):15-18.
[12] 胥京宇. 2014飞思卡尔技术论坛物联网及可穿戴成为热点软件定义网络大势所趋[J].世界电子元器件,2014(06):45-47.
[13] 米沃奇. 物联网的推动者——软件定义网络[J].电脑知识与技术(经验技巧),2015(10):117-118.
[14] 马士玲. 物联网技术在智慧城市建设中的应用[J].物联网技术,2012,2(02):70-72.
[15] 本刊编辑部.国外智能电网研究与应用[J].华北电力技术,2009(06):29.
[16] 张扬. 解读美国最新的智能电网政策[J].能源技术经济,2011,23(09):1-5.
[17] 董爱先,王学军.第5代移动通信技术及发展趋势[J].通信技术,2014,47(03):235-240.
[18] 陈宝亮.首个5G标准正式发布商用竞跑下急需“杀手锏”业务[N].21世纪经济报道,2018-06-15(016).
[19] 潘旭涛,雷杰如,刘山山.5G试点展示时代场景[N].人民日报海外版,2019-03-19(005).
[20] 杜经纬,李海涛,梁涛.国内外物联网研究现状及展望[J].世界科技研究与发展,2013,35(03):408-416.
[21] 苏雄生. NB-IoT技术与应用展望[J].电信快报,2017(05):6-8.
[22] 工业和信息化部办公厅.关于全面推进移动物联网(NB-IoT)建设发展的通知[EB/OL].(2017-6-16).http://www.miit.gov.cn/n1146295/n1146592/n3917132/n4062109/c5692602/content.html.[2019-04-07].
[23] 郑志凌,蒲骁旻,刘霜霜.基于物联网的智能QoS保障机制研究[J].网络安全技术与应用,2017(09):113-114.
[24] 周新丽主编.物联网概论[M].北京:北京邮电大学出版社.2016.
[25] 方莹莹,刘戒骄.从开放式协同创新看中国芯片产业生态圈营造[J].产经评论,2018,9(06):104-115.
[26] 冀凯.美国重金投资3D芯片项目[EB/OL].(2018-08-21).http://www.eeworld.com.cn/manufacture/2018/ic-news082126779.html.[2019-02-07].
[27] 魏少军. 2017年中国集成电路产业现状分析[J].集成电路应用,2017,34(04):6-11.
[28] 路嘉明. 基于机会窗口的中国AI芯片行业追赶研究[J].产业经济评论,2019(01):59-73.
[29] 我国进口的最大物资是芯片[J].理论与当代,2018(05):58-59.
[30] 赵刚. 全球芯片产业格局与大国博弈[J].求知,2018(12):34-38.
[31] 刘菊红,曾召,张晓艳,雷蕾.中医药文献大数据分析平台的构建[J].中国中医药信息杂志,2018,25(08):4-8.
[32] 马永双,蔡敏.中美STEM教育研究的文献计量学分析[J].比较教育研究,2018,40(02):104-112.
[33] 张晓宇,谭延军.应用于物联网的几个协议概述[J].微处理机,2017,38(04):67-71.
[34] 宁焕生,徐群玉.全球物联网发展及中国物联网建设若干思考[J].电子学报,2010,38(11):2590-2599.
[35] 叶甜春,陈大鹏,王何轶,王艳.物联网产业化新进展[J].科技中国,2017(04):41-44.
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