[1]孙想,吴华瑞,朱华吉,等.蔬菜产业大数据平台应用研究[J].北方园艺,2020,44(20):154-162.[doi:10.11937/bfyy.20200633]
　SUN Xiang,WU Huarui,ZHU Huaji,et al.Application Research of Big Data Platform for Vegetable Industry[J].Northern Horticulture,2020,44(20):154-162.[doi:10.11937/bfyy.20200633]

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蔬菜产业大数据平台应用研究

《北方园艺》[ISSN:1001-0009/CN:23-1247/S] 卷: 第44卷期数: 2020年20 页码: 154-162 栏目: 出版日期: 2020-10-30

Title:: Application Research of Big Data Platform for Vegetable Industry

作者:: 孙想1; 2; 3; 吴华瑞1; 2; 3; 朱华吉1; 2; 3; 顾静秋1; 2; 3; （1.北京农业信息技术研究中心，北京 100097；2.国家农业信息化工程技术研究中心，北京 100097；3.农业农村部农业信息技术重点开放实验室，北京 100097）

Author(s):: SUN Xiang1; 2; 3; WU Huarui1; 2; 3; ZHU Huaji1; 2; 3; GU Jingqiu1; 2; 3; (1.Beijing Research Center for Information Technology in Agriculture,Beijing 100097;2.National Engineering Research Center for Information Technology in Agriculture,Beijing 100097;3.Key Laboratory for Information Technologies in Agriculture,the Ministry of Agriculture and Rural Areas,Beijing 100097)

关键词:: 蔬菜; 大数据; 平台; 服务

Keywords:: vegetable; big data; platform; service

DOI:: 10.11937/bfyy.20200633

文献标志码:: A

摘要:: 蔬菜产业链环节复杂、关联影响因素众多，精准监测、优化控制与科学经营管理极其困难。利用大数据技术实现蔬菜产业全要素关联分析，是未来支撑蔬菜产业现代化发展的有效途径。该研究提出了一套蔬菜产业大数据平台建设框架，从蔬菜产业数据来源、采集处理、挖掘分析、平台服务4个方面进行了研究分析，并将平台服务划分为基础服务、应用服务和展示服务。基础服务提供各种数据适配接入和集成共享组件；展示服务提供直观可视化方法，展示数据关联关系与趋势；应用服务提供生产预警、加工冷链物流、市场销售、产业发展等大数据分析服务。平台通过大数据为蔬菜生产、加工、贸易、市场流通、消费等产业环节的管理决策提供支撑，促进我国蔬菜产业现代化转型升级。

Abstract:: Vegetable industry chain links are complex,and there are many related factors.It was extremely difficult to accurately monitor,optimize control and manage scientifically.It was an effective way to support the modernization of vegetable industry in the future to use big data technology to realize the correlation analysis of all factors of vegetable industry.The study put forward a framework for the construction of large data platform for vegetable industry,and studied it from four aspects,large data sources for vegetable,collection and processing,mining and analysis,and platform services.Platform services were divided into basic services,application services and display services.Basic services provided various data adapting access and integration sharing components;display services provided visual methods to show data association and trends;application services provided data analysis services such as production early warning,processing cold chain logistics,market sales,industrial development,etc.The platform provides support for management decision-making of vegetable production,processing,trade,market circulation,consumption and other industrial links through big data,and promotes the modernization transformation and upgrading of vegetable industry in China.

参考文献/References:

[1]孙忠富,杜克明,郑飞翔,等.大数据在智慧农业中研究与应用展望[J].中国农业科技导报,2013,15(6):63-71.[2]DENG M X,DI L P,HAN W G,et al.Web-service-based monitoring and analysis of global agricultural drought[J].Photogrammetric Engineering and Remote Sensing,2013,79(10):929-943.[3]KLEIN L J,MARIANNO F J,ALBRECHT C M,et al.PAIRS:A scalable geo-spatial data analytics platform[C].PAIRS:2015 IEEE Conference on Big Data (Big Data),2015.[4]王文生,郭雷风.农业大数据及其应用展望[J].江苏农业科学,2015,43(9):43-46.[5]DUTTA R,MORSHED A,ARYAL J,et al.Development of an intelligent environmental knowledge system for sustainable agricultural decision support[J].Environmental Modelling & Software,2014,52:264-272.[6]WOLFERT S,GE L,VERDOUW C,et al.Big data in smart farming:A review[J].Agricultural Systems,2017,153:69-80.[7]李瑾,顾戈琦.基于“互联网+”的农业大数据平台构建[J].湖北农业科学,2017,56(10):1947-1952.[8]邢芳.农产品冷链物流标准体系建设现状及对策[J].南方农业,2014,8(9):99-102.[9]AIGNER W,MIKSCH S,SCHUMANN H,et al.Visualization of time-oriented data[M].London:Human-computer Interaction Series,2011.[10]陈栋,吴保国,陈天恩,等.分布式多源农林物联网感知数据共享平台研发[J].农业工程学报,2017,33(s1):300-307.[11]米春桥,彭小宁,米允龙,等.农业大数据技术研究现状与发展趋势[J].安徽农业科学,2016,44（34）:235-237.[12]李道亮,杨昊.农业物联网技术研究进展与发展趋势分析[J].农业机械学报,2018,49(1):1-20.[13]李涛,冯仲科,孙素芬,等.基于Hadoop的气象大数据分析GIS平台设计与试验[J].农业机械学报，2019,50(1):180-188.[14]STEINBRENER J,POSCHK,LEITNER R.Hyperspectral fruit and vegetable classification using convolutional neural networks[J].Computersand Electronicsin Agriculture,2019,162:364-372.[15]BARBEDO J G A.Plant disease identification from individual lesions and spots using deep learning[J].Biosystems Engineering,2019,180:96-107.[16]GEETHARAMANI G,ARUN PANDIAN J.Identification of plant leaf diseases using a nine-layer deep convolutional neural network[J].Computers & Electrical Engineering,2019,76:323-338.[17]王艳玲,张宏立,刘庆飞,等.基于迁移学习的番茄叶片病害图像分类[J].中国农业大学学报,2019,24(6):124-130.[18]张明岳,吴华瑞,朱华吉.基于卷积模型的农业问答语性特征抽取分析[J].农业机械学报,2018，49(12):203-210.[19]常英.基于机器视觉的樱桃番茄在线分级检测研究[D].兰州:兰州理工大学,2019.[20]SUAREZ-REY E M,GALLARDO M,ROMERO-GAMEZ M,et al.Sensitivity and uncertainty analysis in agro-hydrological modelling of drip fertigated lettuce crops under Mediterranean conditions[J].Computers and Electronics in Agriculture,2019,162:630-650.[21]PARK Y,NA M H,CHO W.Determination on environmental factors and growth factors affecting tomato yield using pattern recognition techniques[J].Multimedia Tools and Applications,2019,78(20):28815-28834.[22]张智,和志豪,洪婷婷,等.基于多层次模糊评判的樱桃番茄综合生长水肥耦合调控[J].农业机械学报,2019,50(12):278-287.[23]张仲雄,李斌,冯盼,等.基于植株需光差异特性的设施黄瓜立体光环境智能调控系统[J].智慧农业(中英文),2020,2(2):94-104.[24]段科俊,李再新.基于模糊自适应PID的农业温室系统研究[J].南方农机,2019,50(19):7-9.[25]杨银娟,鞠中安,曹婷婷,等.黄瓜霜霉病中期预警模型的研究.湖南农业大学学报(自然科学版),2019,45(4):444-448.[26]DOS SANTOS U J L,PESSIN G,DA COSTA C A,et al.AgriPrediction:A proactive internet of things model to anticipate problems and improve production in agricultural crops[J].Computers and Electronics in Agriculture,2019,161:202-213.[27]许世卫,李哲敏,李干琼,等.农产品市场价格短期预测研究进展[J].中国农业科学,2011,44(17):3666-3675.[28]陈为,张嵩,鲁爱东.数据可视化的基本原理与方法[M].北京:科学出版社,2013.[29]王勇,段玉聪,姜懿芮,等.设施蔬菜生产大数据挖掘及应用[J].中国瓜菜,2017,30(1):42-45,49.[30]姜懿芮,段玉聪,王勇,等.大数据在日光温室蔬菜生产中的应用[J].中国瓜菜,2019,32(1):42-44.

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备注/Memo

第一作者简介：孙想（1974-），女，博士，研究员，现主要从事农业智能系统等研究工作。E-mail:sunx@nercita.org.cn.责任作者：吴华瑞（1975-），男，博士，研究员，现主要从事农业智能系统等研究工作。E-mail:wuhr@nercita.org.cn.基金项目：国家大宗蔬菜产业技术体系岗位专家资助项目（CARS-23-C06）。收稿日期：2020-02-24

更新日期/Last Update: 2021-01-13