中文    English

Journal of Library and Information Science in Agriculture ›› 2020, Vol. 32 ›› Issue (3): 44-53.doi: 10.13998/j.cnki.issn1002-1248.2020.01.13-0012

;

• Research paper • Previous Articles     Next Articles

The Analysis and Design of Smart Agriculture Applications Based on Blockchain

SU Zhen, ZHAO Wenyan   

  1. Nanjing University of Finance and Economics, College of Information Engineering, Nanjing 21000
  • Received:2020-01-13 Online:2020-03-05 Published:2020-03-23

PDF (PC)

416

Abstract: [Purpose/Significance] With the application of new technology, smart agriculture is the inevitable choice which can promote the development of agriculture. But there are some questions which cannot be solved such as weak technology foundation, food quality and safety, and information asymmetry. In order to prompt and improve the development of intellectual agriculture, we combine blockchain with smart agriculture. [Method/Process] Through the analysis of the characteristics and content of blockchain, the paper first demonstrates that blockchain can complement and improve the key technologies of smart agriculture and help to establish the safe, transparent, efficient and reciprocity development model. Then this paper analyzes the necessity of the integrated development of blockchain and smart agriculture. [Results/Conclusions] Based on the framework of blockchain and combined with the characteristics of smart agriculture, the paper designs the blockchain framework of smart agriculture, and the application fields based on blockchain are discussed. As a result, the feasibility of the integrated development of blockchain and smart agriculture is demonstrated.

Key words: blockchain, smart agriculture, framework, application scenario

CLC Number: 

  • G353
[1] 国务院.国务院关于积极推进“互联网+”行动的指导意见[EB/OL].[2019-12-20].http://www.gov.cn/zhengce/content/2015-07/04/content_10002.htm.
[2] 倪瑜. 中美农业发展概况对比分析[J].新产经,2018(12):88-95.
[3] 龚鸣. 区块链社会:解码区块链全球应用与投资案例[M].北京:中信出版集团,2016:240-280.
[4] Feng T.An agri-food supply chain traceability system for China based on RFID & blockchain technology[C]. International Conference On Service Systems And Service Management,2016:1-6.
[5] 吴林海. 2017年中国食品安全状况研究报告[N].中国社会科学报,2018-12-27(010).
[6] 梁瑞华. 在不对称信息下对我国农产品批发市场的交易影响硏究[J].全国流通经济,2018(30):3-5.
[7] 周平平,杜平宇,李平斌等.中国区块链技术和应用发展白皮书[EB/OL].[2019-12-19].http://www.fullrich.com/Uploads/article/file/2016/1020/580866e374069.pdf.
[8] 梁昊,刘思辰,张一诺,吕科.农产品信息区块链技术架构设计及应用展望[J].智慧农业,2019(1):67-75.
[9] Lin Y P, Petway J R, Anthony J.Blockchain: The evolutionary next step for ICT E-Agriculture[J]. Environments,2017,4(3):50.
[10] Lan G, Christopher B, Jacco S, et al.Blockchain for agriculture and food: Findings from the pilot study[M]. Wageningen: Wageningen Economic Research,2017:1-40.
[11] 区块链专委会:区块链在智慧农业中的应用展望[EB/OL].[2020-01-03].http://dy.163.com/v2/article/detail/EGRBLH6J05386KNU.html.
[12] Satoshi N. Bitcoin: A peer-to-peer electronic cash system[EB/OL].[2019-11-25].https://bitcoin.org/bitcoin.pdf.
[13] Swan M.Blockchain thinking: the brain as a decentralized autonomous Corporation[J].IEEE Technology and Societ Magazine
2015,34(4):41-52.
[14] 马昂,潘晓,吴雷等.区块链技术基础及应用研究综述[J].信息安全研究,2017,3(11):968-980.
[15] 甘国华. 细数区块链中那些关键技术[J].中国商界,2018(1):112-113.
[16] 赛迪智库网络空间研究所.我国区块链发展现状、问题、趋势与对策建议[N].中国计算机报,2018-12-17(008).
[17] 张妍. 关于物联网在现代农业中的应用与前景展望[D].哈尔滨:东北农业科技大学,2016.
[18] 赵明慧,张琭,亓晋.基于区块链的社会物联网可信服务管理框架[J].电信科学,2017(10):19-25.
[19] Jesse Y H, Deokyoon K, Sujin C, et al.Where is current research on blockchain technology? -A systematic review[J]. PLOS ONE,2016,11(10):e0163477.
[20] Christidis K.Blockchains and smart contracts for the internet of things[J]. IEEE Access,2016,4:2292-2303.
[21] 张永,李晓辉.一种改进的区块链共识机制的研究与实现[J].电子设计工程,2018,26(1):38-42.
[22] 韩璇,刘亚敏.区块链技术中的共识机制研究[J].信息网络安全,2017(9):147-152.
[23] 袁勇,王飞跃.区块链技术发展现状与展望[J].自动化学报,2016(04): 481-494.
[1] XIAO Man, WANG Xuan, WANG Fang, HUANG Jinxia. Framework and Development Path of Open Science Capability [J]. Journal of Library and Information Science in Agriculture, 2022, 34(9): 15-28.
[2] ZHANG Wenjun. Conception of Academic Coin Circulation System Based on Blockchain [J]. Journal of Library and Information Science in Agriculture, 2022, 34(8): 42-51.
[3] MOU Lijun, XU Xin. Research on Intangible Cultural Heritage Digital Resources Development Based on NFT [J]. Journal of Library and Information Science in Agriculture, 2022, 34(6): 14-23.
[4] DU Yu, WANG Hongye, HU Zhixun. Co-Construction and Sharing of Literature and Information Resources in Regional Colleges and Universities Based on Block Chain Incentive Mechanism [J]. Journal of Library and Information Science in Agriculture, 2022, 34(4): 74-83.
[5] REN Ni, GUO Ting, SUN Yiwei, DAI Hongjun, ZHANG Chengcheng. An Analysis of Global Smart Agriculture Research Situation [J]. Journal of Library and Information Science in Agriculture, 2021, 33(9): 48-63.
[6] SUN Tan, HUANG Yongwen, XIAN Guojian, CUI Yunpeng, LIU Juan. Considerations for the Development of Agricultural Informatization Driven by a New Generation of Information Technologies [J]. Journal of Library and Information Science in Agriculture, 2021, 33(3): 4-15.
[7] DING Jingda, YUAN Yiqing. An Exploration of the Scholarly Integrity Mechanism Supported by Blockchain Technology in Scholarly Communication [J]. Journal of Library and Information Science in Agriculture, 2021, 33(2): 54-62.
[8] LYU Lucheng, HAN Tao. Artificial Intelligence Enables Knowledge Service and Opens up the Future of Intelligent Agriculture: Review of 2020 National Library and Information Youth Academic Forum [J]. Journal of Library and Information Science in Agriculture, 2021, 33(12): 83-88.
[9] SUN Yiwei, REN Ni, GUO Ting, DAI Hongjun. Research Status of the Key Technology of Livestock and Poultry Farming Facilities [J]. Journal of Library and Information Science in Agriculture, 2021, 33(10): 87-97.
[10] LI Ying, PAN Fei, LIU Fengxia, LI Ying. The Design of the Service Framework of the Concept of "Public Research" Embedded in the Digital Function Systems of University Libraries [J]. Journal of Library and Information Science in Agriculture, 2021, 33(1): 73-79.
[11] CHEN Tao, SHAN Rongrong, LI Hui. Semantic Annotation of Image Resources in Digital Humanities [J]. Journal of Library and Information Science in Agriculture, 2020, 32(9): 6-14.
[12] ZHOU Jie, LIU Haitao. Application of Blockchain Technology in the Construction of Scientific Research Integrity in Universities [J]. Journal of Library and Information Science in Agriculture, 2020, 32(8): 34-39.
[13] ZHOU Zhenguo. Data Governance Research from the Perspective of Governance Framework [J]. Journal of Library and Information Science in Agriculture, 2020, 32(7): 57-62.
[14] TIAN Ye. Semantic Sharing Mechanism of Heterogeneous Government Data Based on Blockchain [J]. Journal of Library and Information Science in Agriculture, 2020, 32(1): 12-22.
[15] LIU Rongqing. Analysis of University Library Performance Evaluation Index Based on BSC Principle [J]. Agricultural Library and Information, 2019, 31(11): 58-63.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!
Editorial Board of Journal of Library and Information Science in Agriculture
Tel:(010)82109667 Fax:(010)82109667 E-mail:xuekan@caas.cn
Powered by Beijing Magtech Co., Ltd.
知识共享许可协议