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《工业仪表与自动化装置》[ISSN:1000-0682/CN:61-1121/TH]

卷:

期数:

2024年01期

页码:

13-17+33

栏目:

出版日期:

2024-02-15

文章信息/Info

Title:

Design of smart agricultural greenhouse monitoring system based on wireless sensor network and edge gateway

文章编号:

1000-0682（2024）01-0013-05

作者:

柴西林1 ; 张 婧1 ; 邵照勇2; 李国鑫3

（1. 兰州石化职业技术大学，甘肃 兰州730060；2.中国石油兰州石化分公司，甘肃 兰州7300603；3.北京优特捷信息技术有限公司，北京，100020)

Author(s):

CHAI Xilin1; ZHANG Jing 1; SHAO Zhaoyong2; LI Guoxin3

（1.Lanzhou Petrochemical University of Vocational Technology，Lanzhou, Gansu 730060, China； 2. PetroChina Lanzhou Petrochemical Company, Lanzhou,Gansu 730060, China; 3.Beijing Youtejie Information Technology Co., Ltd., Beijing 100020, China）

关键词:

无线传感网; 边缘网关; 智慧农业; 监控系统

Keywords:

wireless sensor network;  edge gateway;  smart agriculture; monitoring system

分类号:

TP368.2

DOI:

DOI:10.19950/j.cnki.CN61-1121/TH.2024.01.003

文献标志码:

A

摘要:

在不断发展的物联网、大数据及云计算等技术的交叉融合下，基于无线传感自组网及边缘网关，应用边缘计算，设计实现了一种智慧农业大棚监控系统。系统设计基于物联网架构，传感层以CC2530芯片为核心分别构建了传感型采集节点和控制型节点；采用正三角形网格的节点部署方案，高质量实现了无线传感网构建。边缘网关以STM32F103ZET6 MCU为核心，一方面负责与无线传感器网络中的各节点进行数据通信，完成边缘计算并对网络中的节点进行管理和控制；另一方面通过 WiFi、4G/5G 等通信模块进行数据的无线传输，把采集到的数据封装处理打包传输到服务器端，实现边缘网关作为连接传感节点与服务器监控中心的相应功能。应用层通过EMQTT服务器和Node-RED搭建云平台构建，用户可以通过PC端、手机端登录数据处理中心的WEB服务器，实现对物联网设备的控制及环境的监测。

Abstract:

Under the cross-fertilization of evolving Internet of Things (IoT), big data and cloud computing technologies, a smart agricultural greenhouse monitoring system is designed and realized based on wireless sensor self-assembling network and edge gateway, applying edge computing.The system design is based on the Internet of Things architecture, and the sensing layer is composed of a CC2530 chip as the core to construct a sensing type collection node and a control type node. The node deployment scheme using a regular triangle grid has achieved high-quality construction of wireless sensor networks.The edge gateway takes STM32F103ZET6 MCU as the core, on the one hand, it is responsible for data communication with each node in the wireless sensor network, completing the edge calculation and managing and controlling the nodes in the network; on the other hand, it carries out the wireless transmission of data through the communication modules such as WiFi, 4G/5G, etc., and encapsulates, processes and packages the collected data for transmission to the server side, so that it can realize the corresponding function of the edge gateway as a connection between the sensing nodes and the server monitoring center.The application layer is constructed by EMQTT server and Node-RED to build a cloud platform. Users can log in to the WEB server of the data processing center through PC and cell phone to realize the control of IoT devices and monitoring of the environment.

参考文献/References:

[1]边缘计算产业联盟.边缘计算参考架构 3.0,边缘计算产业联盟白皮书.[R].2018.

相似文献/References:

[1]丁春莉,李林森.基于成型分区机制的无线传感网簇路由算法[J].工业仪表与自动化装置,2017,(03):16.
　DING?Chunli,LI?Linsen.Wireless sensor network routing algorithm based on the forming mechanism[J].Industrial Instrumentation & Automation,2017,(01):16.
[2]周小军,郭玉霞,王凌强,等.基于物联网的无线体温监控校园传染病预警系统设计[J].工业仪表与自动化装置,2019,(02):109.[doi:1000-0682(2019)02-0000-00]
　ZHOU Xiaojun,GUO Yuxia,WANG Lingqiang,et al.Design of campus infectious disease warning system based on Internet of things[J].Industrial Instrumentation & Automation,2019,(01):109.[doi:1000-0682(2019)02-0000-00]

备注/Memo

备注/Memo:

收稿日期：2023-10-01基金项目：甘肃省高等学校创新基金项目《基于物联网技术的智慧农业大棚监控系统研究》(NO.2021B-342)第一作者：柴西林（1984—），女，甘肃兰州人，硕士，副教授，主要研究方向为嵌入式系统和物联网、模式识别与智能系统。

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