Journal of Agricultural Big Data >
Information Traceability Model for the Grain and Oil Food Supply Chain Based on Trusted Identification and Trusted Blockchain
Received date: 2022-01-20
Online published: 2022-06-29
The grain and oil food supply chain has a complex structure, long turnover cycles, and many stakeholders, so it’s challenging to maintain the security of this supply chain. A reliable traceability system for the whole grain and oil food supply chain will help to improve the quality and safety of these products, thus enhancing people’s living standards. Driven by the trusted blockchain and trusted identity concepts, this paper constructs an information traceability model for the whole grain and oil food supply chain, and describes how contract implementation and example verification are performed. First, an information traceability model framework of the whole grain and oil food supply chain is established based on the survey and analysis of grain and oil food supply chain. Second, trusted identification, multi-mode storage, and trusted traceability mechanisms are designed. The trusted identification mechanism is used to track the data information of the whole grain and oil food supply chain. The multimode storage mechanism solves the problem of miscellaneous information caused by many links in the whole grain and oil supply chain, while the credible traceability mechanism ensures the credibility of information collection, storage, and transmission. Finally, based on the data flow, the model operation process is analyzed. Using the information traceability model, the grain and oil food trusted traceability system is designed and developed with the Hyperledger Fabric open-source framework, and a case study is conducted to verify the system. The results show that the model and system constructed in this study solve the problems of low data security and poor sharing, which exist widely in the traditional traceability mechanism, and enable the trusted uplink, storage, processing, and traceability of multi-source heterogeneous information in the lifecycle of the whole grain and oil food supply chain. The proposed system improves the granularity and accuracy of grain and oil food traceability, and provides support for the strategic security of grain stocks.
Xin Zhang, Xiangzhen Peng, Yue Li, Xiaoyi Wang, Zhiyao Zhao, Jiping Xu . Information Traceability Model for the Grain and Oil Food Supply Chain Based on Trusted Identification and Trusted Blockchain[J]. Journal of Agricultural Big Data, 2022 , 4(1) : 35 -48 . DOI: 10.19788/j.issn.2096-6369.220103
| 1 | 姜侯,杨雅萍,孙九林.农业大数据研究与应用[J].农业大数据学报,2019,1(01):5-15. DOI:10.19788/j.issn.2096-6369.190101 . |
| 1 | Jiang H, Yang Y P, Sun J L. Research and Application of Agricultural Big Data [J]. Journal of Agricultural Big Data, 2019, 1(01): 5-15. DOI: 10.19788/j.issn.2096-6369.190101 . |
| 2 | 钱建平,吴文斌,杨鹏.新一代信息技术对农产品追溯系统智能化影响的综述[J].农业工程学报,2020,36(05):182-191. |
| 2 | Qian J P, Wu W B, Yang P. A review of the impact of a new generation of information technology on the intelligence of agricultural product traceability systems [J]. Chinese Journal of Agricultural Engineering, 2020, 36(05): 182-191. |
| 3 | 王杕,陈松.我国食品安全突发事件应急管理体系研究及环境污染案例分析[J].食品科学,2016,37(05):283-289. |
| 3 | Wang H, Chen S. Research on emergency management system for food safety emergencies in my country and case analysis of environmental pollution [J]. Food Science, 2016, 37(05): 283-289. |
| 4 | Wang S.; Li D.; Zhang Y. Smart contract-based product traceability system in the supply chain scenario[J]. IEEE Access 2019, 7,115122-115133.、 |
| 5 | 袁勇,王飞跃.区块链发展现状与展望[J].自动化学报,2016,42(04):481-494.DOI:10.16383/j.aas.2016.c160158 . |
| 5 | Yuan Y, Wang F Y. The current situation and prospect of blockchain technology development [J]. Journal of Automation, 2016, 42(04): 481-494. DOI: 10.16383/j.aas.2016.c160158 . |
| 6 | Olsen P.; Borit M. The components of a food traceability system[J]. Trends in food science & technology, 2018, 77, 143-149. |
| 7 | Verbeke W. Agriculture and the food industry in the information age[J]. Social Science Electronic Publishing, 2005, 32(3),347-368. |
| 8 | Creydt M.; Fischer M. Blockchain and more-Algorithm driven food traceability[J]. Food Control, 2019. |
| 9 | Perboli G.; Musso S.; Rosano M. Blockchain in logistics and supply chain: A lean approach for designing real-world use cases[J]. IEEE Access, 2018, 6, 62018-62028. |
| 10 | Gatteschi V.; Lamberti F.; Demartini C. Blockchain and smart contracts for insurance: Is the technology mature enough? [J]. Future Internet, 2018, 10(2), 20. |
| 11 | Hou B.; Hou J.; Wu L. Consumer Preferences for Traceable Food with Different Functions of Safety Information Attributes: Evidence from a Menu-Based Choice Experiment in China[J]. International Journal of Environmental Research and Public Health, 2020, 17(1), 146. |
| 12 | 陈玥婧,周爱莲,谢能付 等.基于区块链和物联网的农产品质量安全追溯系统[J].农业大数据学报,2020,2(03):61-67.DOI:10.19788/j.issn.2096-6369.200307 . |
| 12 | Chen Y J Zhou A L, Xie N F et. based on blockchain and Internet of things agricultural product quality and safety traceability system [J]. Journal of Agricultural Big Data, 2020, 2(03): 61-67. DOI: 10.19788/ j.issn.2096-6369.200307 . |
| 13 | Opara L.U. Traceability in agriculture and food supply chain: a review of basic concepts, technological implications, and future prospects[J]. Journal of Food Agriculture and Environment, 2003, 1,101-106. |
| 14 | Salah K.; Nizamuddin N.; Jayaraman R. Blockchain-based soybean traceability in agricultural supply chain[J]. IEEE Access, 2019, 7, 73295-73305. |
| 15 | Tao Q.; Cui X.; Huang X. Food Safety Supervision System Based on Hierarchical Multi-Domain Blockchain Network[J]. IEEE Access, 2019, 7, 51817-51826. |
| 16 | Mao D.; Wang F.; Hao Z. Credit evaluation system based on blockchain for multiple stakeholders in the food supply chain[J]. International journal of environmental research and public health, 2018, 15(8), 1627. |
| 17 | Lin Q.; Wang H.; Pei X. Food safety traceability system based on blockchain and EPCIS[J]. IEEE Access, 2019, 7, 20698-20707. |
| 18 | Casado-Vara R.; Prieto J.; De la Prieta F. How blockchain improves the supply chain: case study alimentary supply chain[J]. Procedia computer science, 2018, 134, 393-398. |
| 19 | Olsen P.; Aschan M. Reference method for analyzing material flow, information flow and information loss in food supply chains[J]. Trends in food science & technology, 2010, 21(6), 313-320. |
| 20 | Xu L.; Yang X.; Wu L. Consumers’ Willingness to Pay for Food with Information on Animal Welfare, Lean Meat Essence Detection, and Traceability[J]. International Journal of Environmental Research and Public Health, 2019, 16(19),3616. |
| 21 | Zhao G.; Liu S.; Lopez C. Blockchain technology in agri-food value chain management: A synthesis of applications, challenges and future research directions[J]. Computers in Industry, 2019, 109, 83-99. |
| 22 | Peck, Blockchains M.E. : How they work and why they'll change the world. IEEE spectrum 2017, 54(10), 26-35. |
| 23 | 詹晶,刘滨,陈鸣.全球性重大突发公共卫生事件对我国粮食安全的影响及其防范[J/OL].中国农业科技导报:1-9[2022-01-26].DOI:10.13304/j.nykjdb.2021.0006 . |
| 23 | Zhan J, Liu B, Chen M. The impact of major global public health emergencies on my country's food security and its prevention [J/OL]. China Agricultural Science and Technology Herald: 1-9 [2022-01-26] .DOI: 10.13304/j.nykjdb.2021.0006 . |
| 24 | Tseng J.H.; Liao Y.C.; Chong B. Governance on the drug supply chain via gcoin blockchain. International journal of environmental research and public health 2018, 15(6), 1055. |
| 25 | Landt, The history of RFID J.. IEEE potentials 2005, 24(4), 8-11. |
| 26 | Badia-Melis R.; Mishra P.; Ruiz-García L. Food traceability: New trends and recent advances. A review. Food control 2015, 57, 393-401. |
| 27 | 钱建平,余强毅,史云.基于区块链的农业投入品智能管控平台设计[J].农业大数据学报,2020,2(02):38-46.DOI:10.19788/j.issn.2096-6369.200204 . |
| 27 | Qian J P, Yu Q Y, Shi Y,. Design of intelligent management and control platform for agricultural inputs based on blockchain [J]. Journal of Agricultural Big Data, 2020, 2(02): 38-46. DOI: 10.19788/j.issn.2096-6369.200204 . |
| 28 | Qian J.P.; Yang X.T.; Wu X.M. A traceability system incorporating 2D barcode and RFID technology for wheat flour mills. Computers and electronics in agriculture 2012, 89, 76-85. |
| 29 | Qian J.; Du X.; Zhang B. Optimization of QR code readability in movement state using response surface methodology for implementing continuous chain traceability. Computers and Electronics in Agriculture, 2017, 139, 56-64. |
| 30 | Caro M.P.; Ali M.S.; Vecchio M. Blockchain-based traceability in Agri-Food supply chain management: A practical implementation. 2018 IoT Vertical and Topical Summit on Agriculture-Tuscany (IOT Tuscany), IEEE, 2018; 1-4. |
| 31 | Tsang Y.P.; Choy K.L.; Wu C.H. Blockchain-driven IoT for food traceability with an integrated consensus mechanism. IEEE Access 2019, 7, 129000-129017. |
| 32 | Sen Saikat, Chakraborty Raja, De Biplab, Devanna N.An ethnobotanical survey of medicinal plants used by ethnic people in West and South district of Tripura, India[J].Journal of Forestry Research,2011,22(03):417-426. |
| 33 | Galvez J.F.; Mejuto J.C.; Simal-Gandara J. Future challenges on the use of blockchain for food traceability analysis. TrAC Trends in Analytical Chemistry 2018, 107, 222-232. |
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