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Journal of Library and Information Science in Agriculture ›› 2021, Vol. 33 ›› Issue (3): 4-15.doi: 10.13998/j.cnki.issn1002-1248.20-0809

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Considerations for the Development of Agricultural Informatization Driven by a New Generation of Information Technologies

SUN Tan1, 2, HUANG Yongwen1, *, XIAN Guojian1, 2, CUI Yunpeng1, 2, LIU Juan1   

  1. 1. Agricultural Information Institution of CAAS, Beijing 100081;
    2. Key Laboratory of Agricultural Big Data, Ministry of Agriculture and Rural Affairs, Beijing 100081
  • Received:2020-10-07 Online:2021-03-05 Published:2021-04-08

Abstract: [Purpose/Significance] At present, the world is in an information age, and the development of agricultural information has become an important development direction of modern agriculture. Therefore, it is necessary to explore how a new generation of information technologies promotes the development of agricultural informatization. [Method/Process] This paper summarizes the current situation of the applications of the new generation of information technologies in the agricultural field, analyzes the path of the technologies to promote the development of agricultural informatization, and puts forward the strategy of the innovation and integrated applications of the technologies. [Results/Conclusions] The paper proposes to supplement the shortcomings of agricultural informatization and modernization through the innovation of a new generation of information technologies, helps the "village revitalization strategy", and realizes and accelerates the "synchronization of the four modernizations and integrated development". Promoting the applications of information technologies in agriculture must rely on technological innovation, model innovation, mechanism innovation and policy innovation.

Key words: new generation of information technologies, agricultural informatization, artificial intelligence, big data, scientific data, smart agriculture

CLC Number: 

  • S126
[1] 人民日报.数字农业农村发展规划(2019-2025年)出台[N/OL].[2020-01-21].http://paper.people.com.cn/rmrb/html/2020-01/21/nw.D110000renmrb_20200121_6-07.htm.
People's Daily. The introduction of digital agriculture and rural development plan(2019-2025)[N/OL]. [2020-01-21]. http://paper.people.com.cn/rmrb/html/2020-01/21/nw.D110000renmrb_20200121_6-07.htm.
[2] 张献. 农业信息化建设探析[J]. 河南农业, 2019(27): 41-42.
ZHANG X.Explosion on agricultural information construction[J]. Agriculture of Henan, 2019(27): 41-42.
[3] 熊春林, 李卉, 尹慧慧. 新世纪以来我国农村农业信息化研究的热点识别与趋势预测[J]. 科技管理研究, 2019(15): 182-190.
XIONG C L, LI H, YIN H H.Hotspot identification and trend prediction in rural agricultural informatization research in China since beginning of 21st century[J]. Science and technology managementresearch, 2019(15): 182-190.
[4] 陈诗. 新媒体背景下农业信息化建设的应用研究[J]. 农村经济, 2019(9): 110-115.
CHEN S.Applied research of agricultural information construction in the context of news media[J]. Rural economy, 2019(9): 110-115.
[5] 郭艳艳. 农业信息化建设现状与对策浅析[J]. 南方农业, 2020(2):188-189, 194.
GUO Y Y.A brief analysis on present situation and countermeasures of agricultural information construction[J]. South China agriculture, 2020(2): 188-189, 194.
[6] 白山稳. 加快农业信息化建设推进农业现代化发展[J]. 山西农经, 2020(6): 96-97.
BAI S W.Accelerate the construction of agricultural informatization and promote the development of agricultural modernization[J].Shanxi agricultural economy, 2020(6): 96-97.
[7] FAO, ITU.E-Agriculture strategy guide: Piloted in Asia-Pacific countries[EB/OL]. [2020-06-05].https://www.itu.int/dms_pub/itu-d/opb/str/D-STR-E_AGRICULT.01-2016-PDF-E.pdf.
[8] 戴珍蕤. 促进我国智慧农业发展的对策研究[D]. 舟山: 浙江海洋大学, 2018.DAI Z R. Research on countermeasures to promote the development of wisdom agriculture in China[D]. Zhoushan: Zhejiang ocean university, 2018.
[9] 刘杰夫. 基于MVC框架下的农业信息网络的开发[D]. 南宁: 广西大学, 2017.
LIU J F.Development of agricultural information network based on MVC framework[D]. Nanning: Guangxi university, 2017.
[10] 韩玮. 德国:"数字农业"模式[J]. 中国农资. 2017(33): 20.
HAN W.Germany: "Digital agriculture" model[J]. China agri-production news. 2017(33): 20.
[11] 刘丽伟, 高中理. 美国发展“智慧农业”促进农业产业链变革的做法及启示[J]. 经济纵横, 2016(12): 120-124.
LIU L W, GAO Z L.Practice and inspiration of America's development in smart agriculture aiming at promoting the transformation of agricultural industry chain[J]. Economic review journal, 2016(12): 120-124.
[12] 孔繁涛, 朱孟帅, 韩书庆, 等. 国内外农业信息化比较研究[J]. 世界农业. 2016(10): 10-18.
KONG F T, ZHU M S, HAN S Q, et al.A comparison of agricultural informatization in China and abroad[J]. World agriculture, 2016(10): 10-18.
[13] BRONSON K, KNEZEVIC I.Big data in food and agriculture[J]. Big data & society, 2016, 3(1): 11-15.
[14] 国务院关于加快培育和发展战略性新兴产业的决定[EB/OL]. [2020-05-05]. http://www.gov.cn/zwgk/2010-10/18/content_1724848.htm.
Decision of the state council on accelerating the fostering and development of strategic emerging industries[EB/OL]. [2020-05-05]. http://www.gov.cn/zwgk/2010-10/18/content_1724848.htm.
[15] 娄丽娜. 乡村振兴战略背景下提升农业信息化建设水平的研究[J]. 现代农业研究, 2019(5): 31-33.
LOU L N.Research on promoting agricultural informatization construction level under the background of rural revitalization strategy[J]. Modern agriculture research, 2019(5): 31-33.
[16] 新一代信息技术产业发展新趋势: 数字、智能、跨界、融合[EB/OL]. [2020-05-15].https://www.sohu.com/a/330149807_100017659.
New development trend of new generation information technology industry: digitalization, intelligence, transboundary and integration[EB/OL]. [2020-05-15].https://www.sohu.com/a/330149807_100017659.
[17] Gartner's top 10 strategic technology trends for2020[EB/OL]. [2020-05-15]. https://www.gartner.com/smarterwithgartner/gartner-top-10-strategic-technology-trends-for-2020/.
[18] Gartner's top 10 strategic technology trends for2019[EB/OL]. [2020-05-15]. https://www.gartner.com/smarterwithgartner/gartner-top-10-strategic-technology-trends-for-2019/.
[19] 5 trends appear on the Gartner hype cycle for emerging technologies, 2019[EB/OL]. [2020-05-15]. https://www.gartner.com/smarterwithgartner/5-trends-appear-on-the-gartner-hype-cycle-for-emerging-technologies-2019/.
[20] 5 trends appear on the Gartner hype cycle for emerging technologies, 2018[EB/OL]. [2020-05-15]. https://www.gartner.com/smarterwithgartner/5-trends-emerge-in-gartner-hype-cycle-for-emerging-technologies-2018/.
[21] Gartner's top 10 strategic technology trends for2018[EB/OL]. [2020-05-15]. https://www.gartner.com/smarterwithgartner/gartner-top-10-strategic-technology-trends-for-2018/.
[22] Gartner's top 10 strategic technology trends for 2017[EB/OL]. [2020-05-15]. http://www.gartner.com/smarterwithgartner/gartners-top-10-technology-trends-2017/.
[23] 杨琇涵, 宿丽丽, 王青蓝. 论5G时代农业信息化的发展趋势[J]. 农业科技管理, 2020(2): 11-12, 35.
YANG X H, SU L L, WANG Q L.The development trend of agricultural informatization in 5G era[J]. Management of agricultural
24 science and technology, 2020(2): 11-12, 35.
[24] 杨思思. 农业信息化建设中物联网技术的应用[J]. 南方农机, 2020(14): 60-61.
YANG S S.Application of IoT technology in agricultural informatization construction[J]. China southern agricultural machinery, 2020(14): 60-61.
[25] 李祥锐. 云计算在农业信息化中的价值与应用[J]. 农村经济与科技, 2020(2): 397-398.
LI X R.Value and application of cloud computing in agricultural informatization[J]. Rural economy and science-technology, 2020(2): 397-398.
[26] 叶煜, 雷静, 任华. 数据挖掘在农业信息化中的应用[J]. 工业控制计算机, 2020(7): 127-128.
YE Y, LEI J, REN H.Application of data mining in agricultural informatization[J]. Industrial control computer, 2020(7): 127-128.
[27] SMITH M J.Getting value from artificial intelligence in agriculture[J]. Animal production science, 2020(60): 46-54.
[28] 刘双印, 黄建德, 黄子涛, 等. 农业人工智能的现状与应用综述[J]. 现代农业装备, 2019(6): 7-13.
LIU S Y, HUANG J D, HUANG Z T, et al.Summary of agricultural artificial intelligence[J]. Modern agricultural equipment, 2019(6):7-13.
[29] FOUNTAS S, ESPEJO-GARCIA B, KASIMATI A, et al.The future of digital agriculture: Technologies and opportunities[J]. IT professional, 2020, 22(1): 24-28.
[30] 吴进成, 李冬梅. 探索基于“互联网+”背景下的农业信息化发展途径[J]. 农业工程技术, 2020(18):5 9-60.
WU J C, LI D M.Exploring the development way of agricultural informatization in the context of "Internet Plus"[J]. Agricultural engineering technology, 2020(18): 59-60.
[31] 张乃芹. 农业信息化建设在农业农村中应用现状及发展建议[J]. 农业工程技术, 2020(18): 33-35.
ZHANG N Q.Application and development of agricultural information construction in agriculture and rural sector[J]. Agricultural engineering technology, 2020(18): 33-35.
[32] 王瑜, 郑子辉. 人工智能技术在农业领域的应用方向及发展路径[J]. 信息通信技术与政策, 2019(6): 29-31.
WANG Y, ZHENG Z H.Application orientation and development path of artificial intelligence technology in agriculture[J]. Information and communications technology and policy, 2019(6): 29-31.
[33] 刘耀雄. 智能机器人在农业自动化领域应用分析[J]. 农业技术与装备, 2019(1): 14-16.
LIU Y X.Analysis of the main application of intelligent robot in the field of agricultural automation[J]. Agricultural technology & equipment, 2019(1): 14-16.
[34] 潘教峰, 刘益东, 陈光华, 等. 世界科技中心转移的钻石模型——基于经济繁荣、思想解放、教育兴盛、政府支持、科技革命的历史分析与前瞻[J]. 中国科学院院刊, 2019, 34(1): 10-21.
PAN J F, LIU Y D, CHEN G H, et al.Diamond model of world science and technology centers transfer: economic prosperity, ideological emancipation, education prosperity, government support, S&T revolution[J]. Bulletin of Chinese academy of sciences, 2019, 34(1): 10-21.
[35] 欧阳日辉. 从“+互联网”到 “互联网+”——技术革命如何孕育新型经济社会形态[J]. 人民论坛·学术前沿, 2015(10): 25-28.
OUYANG R H.Changing from "plus internet" to "internet plus" - how technological revolution brings about new economic and social patterns[J]. Frontiers, 2015(10): 25-28.
[36] FAO. The future of food and agiculture: Trends and challenges[EB/OL]. [2020-05-20]. http://www.fao.org/3/a-i6583e.pdf.
[37] GRAY B, BABCOCK L, TOBIAS L, et al.Digital farmer profile: Reimagining smallholder agriculture[M]. Washington D. C., USAID, 2018.
[38] PATIL T G, SHEKHAWAT S P. INDUSTRY 4.0 implications on agriculture sector: an overview[J]. International journal of management,technology and engineering, 2019, IX(i): 1512-1524.
[39] MEOLA A. Why IoT, big data & smart farming are the future of agriculture[EB/OL]. [2020-05-20]. http://www.businessinsider.com/internet-of-things-smart-agriculture-2016-10.
[40] 艾金龙, 冯晖, 王欢. 浅议智慧农业的发展历程、现状与趋势[J]. 广西农业机械化, 2019(6): 93-94.
AI J L, FENG H, WANG H.Development process, current situation and trend of smart agriculture[J]. Guangxi agricultural mechanization, 2019(6): 93-94.
[41] 王振, 姬广永, 耿桂娟. 云计算在农业信息化中的应用及发展[J]. 农业工程, 2018(2): 32-34.
WANG Z, JI Y G, GENG G J.Application and development prospect of cloud computing in agricultural informatization[J]. Agricultural engineering, 2018(2): 32-34.
[42] The Boston consulting group. Crop farming2030[EB/OL]. [2020-05-20]. https://www.bcg.com/de-de/publications/2015/crop-farming-2030-reinvention-sector.aspx.
[43] The common agricultural policy2014-2020: Scenarios for the European agricultural and rural systems[EB/OL]. [2020-06-05]. https://agrifoodecon.springeropen.com/articles/10.1186/s40100-016-0060-y.
[44] Horizon2020 work programme2016-2017[EB/OL]. [2020-06-05]. https://ec.europa.eu/research/participants/data/ref/h2020/wp/2016_2017/main/h2020-wp1617-msca_en.pdf.
[45] AGRICULTURE 4.0: Obstacles and how to break through[EB/OL].[2020-06-05]. https://tdri.or.th/en/2017/06/agriculture-4-0-obstacles-break-2/.
[46] 赵春江. 智慧农业发展现状及战略目标研究[J]. 智慧农业, 2019, 1(1): 1-7.
ZHAO C J.State-of-the-art and recommended developmental strategic objectives of smart agriculture[J]. Smart agriculture, 2019, 1(1): 1-7.
[47] 李明晓, 马鑫, 张宏, 等. 智慧农业——AI在农业领域的应用与展望[J]. 软件导刊, 2019(8): 39-42.
LI M X, MA X, ZHANG H L, et al.Smart agriculture - application and prospect of AI in agriculture[J]. Software guide, 2019(8): 39-42.
[48] 徐军纪, 付少平, 孟燕, 等. 我国农业信息化精准管理技术重构路径[J]. 农业工程, 2019(9): 43-45.
XU J J, FU S P, MENG Y, et al.Reconstructing technical path of precision management of agricultural informatization in China[J]. Agricultural engineering, 2019(9): 43-45.
[49] 李中科, 赵慧娟, 苏晓萍, 等. 人工智能在农业中的最新应用及挑战[J]. 农业技术与装备, 2018(6): 90-92.
LI Z K, ZHAO H J, SU X P, et al.The latest applications and challenges of artificial intelligence in agriculture[J]. Agricultural technology & equipment, 2018(6): 90-92.
[50] 崔凯, 冯献. 我国农业农村信息化的阶段性特征与趋势研判[J]. 改革, 2020(6): 125-135.
CUI K, FENG X.Stage characteristics and trend judgement of agricultural and rural informatization in China[J]. Reform, 2020(6): 125-135.
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