基于物联网的温室蔬菜生产管理系统的设计与实现
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摘要
为了实现温室蔬菜的实时监测与科学化的生产管理,满足温室蔬菜的信息化、规模化生产需求,设计了基于物联网的温室蔬菜生产管理系统。首先,根据温室大棚内所种植的蔬菜的环境、主要影像因素进行分析,设计了温室大棚监控系统的整体架构以及各个功能模块。然后,使用Zig Bee自组网技术网络实现了传感器网络中各个感知节点的信息汇聚,构建了系统的传输层。最后,授权用户可以登录生产管理系统,进行数据管理、远程监测及远程控制。通过实验验证,该系统为蔬菜生产种植基地提供了一套现代化的全自动系统,实现环境参数的实时搜集与检测以及科学精准的生产管理。能够实现对环境温度、湿度、空气中二氧化碳浓度等环境数据的实时采集与上传,能够进行实时视频画面监控、远程调控和生产资料管理。改善了温室蔬菜种植结构,减少人力投入成本,极大地提高了生产效率。
In order to realize real-time monitoring and scientific management of greenhouse vegetables, meeting the needs of informatization and scale production of greenhouse vegetables, this paper designs a greenhouse vegetable production management system based on Io T. through the modern Io T sensing equipment and Zig Bee ad hoc network technology. This system provides a modern and full automatic system for vegetable production planting. It collects and tests environmental parameters in real time, as well as scientific and accurate production management. This system collects real-time environmental data such as ambient temperature,humidity and carbon dioxide concentration in the air, and it also monitors and controls remotely the production data and processes a series of functions via CCTV. This system improves greenhouse vegetable planting structure, reduces labor costs, and greatly improves the productivity efficiency.
In order to realize real-time monitoring and scientific management of greenhouse vegetables, meeting the needs of informatization and scale production of greenhouse vegetables, this paper designs a greenhouse vegetable production management system based on Io T. through the modern Io T sensing equipment and Zig Bee ad hoc network technology. This system provides a modern and full automatic system for vegetable production planting. It collects and tests environmental parameters in real time, as well as scientific and accurate production management. This system collects real-time environmental data such as ambient temperature,humidity and carbon dioxide concentration in the air, and it also monitors and controls remotely the production data and processes a series of functions via CCTV. This system improves greenhouse vegetable planting structure, reduces labor costs, and greatly improves the productivity efficiency.
引文
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[3]张文涵,吴海涛,姜贺,等.基于物联网光伏智能水稻害虫防治监控系统设计[J].科技创新导报,2016(27):94-94.
[4]余晓,张华.物联网技术在蔬菜种植业中的应用[J].软件导刊,2014(11):6-7.
[5]王学明,刘裕岭.试论农业物联网技术在设施蔬菜生产上的研究与示范应用[J].新农村:黑龙江,2015(13):38-39.
[6]胡英强,徐逸寒,樊继刚,等.农业物联网技术在设施蔬菜建设中的应用初探[J].上海蔬菜,2014(4):11-12.
[7]章铁军,宫彬彬,刘永泉.基于物联网的设施蔬菜环境远程监控系统的设计及应用[J].河北农业大学学报,2016,39(1):119-125.
[8]余明艳,支和才.物联网农业园区预警监控系统的应用[J].科技创新与应用,2016(4):19-19.
[9]陈令芳,张姗姗,张凯,等.物联网技术在蓝莓病虫害监测预警中的应用初探[J].物联网技术,2016,6(7):95-96.
[10]FUCHS L,PREIS A.Busi ROLE:A Model for IntegratingBusiness Roles into Identity Management[C]//International Conference on Trust,Privacy and Security in Digital Business.Springer-Verlag,2008:128-138.
[11]FUGKEAW S,MANPANPANICH P,JUNTAPREMJITT S.Exploiting X.509 Certificate and Multi-agent System Architecture for Role-Based Access Control and Authentication Management[C]//IEEE International Conference on Computer and Information Technology.IEEE,2007:733-738.