农作物生长环境监测与评价系统设计与开发
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摘要
农作物的生长环境对其产量和质量具有很大的影响,目前我国对农作物生长环境进行监测与评价的系统尚不成熟。对此,研发了一套农作物生长环境智能监测与评价系统,该系统由数据采集站点、服务器端数据交互程序和网页客户端三部分组成,实现了对土壤温湿度、PH值、EC值、光照度等环境指标以及现场图像的远程监测和数据分析处理。该系统无需在监测现场建立网络基站,具备了可迁移性好、成本低、环境适应性强等特点,实现了将现场的数据精准采集与云端的科学化服务平台相结合,为农业作业的实施提供了科学有效的参考与指导。
Crop growth environment has a great influence on the yield and quality of crops. At present,environmental monitoring and evaluation system for the growth of crops is undeveloped in China. Therefore,an intelligence environment monitoring and evaluating system has been developed. This system consists of three parts,including data collection device,server-side data interaction software and web client. It achieves remote real-time monitoring and analysis for muti-indicators such as soil temperature and humidity,PH,EC and illumination. The system does not need to establish the network base station in the monitoring site,and has the characteristics of good mobility,low cost and strong environmental adaptability. It realizes the combination of accurate data collection on the spot and the scientific service platform in the cloud for agricultural operation. Providing a scientific and effective reference and guidance.
Crop growth environment has a great influence on the yield and quality of crops. At present,environmental monitoring and evaluation system for the growth of crops is undeveloped in China. Therefore,an intelligence environment monitoring and evaluating system has been developed. This system consists of three parts,including data collection device,server-side data interaction software and web client. It achieves remote real-time monitoring and analysis for muti-indicators such as soil temperature and humidity,PH,EC and illumination. The system does not need to establish the network base station in the monitoring site,and has the characteristics of good mobility,low cost and strong environmental adaptability. It realizes the combination of accurate data collection on the spot and the scientific service platform in the cloud for agricultural operation. Providing a scientific and effective reference and guidance.
引文
[1]冯永祥,邢水红.农业大棚环境远程监控系统的研究与设计[J].电脑知识与技术,2016,12(20):261-263.
[2]许珊.关于农业大棚环境远程监控技术的研究[J].科学与信息化,2018(7):144+147.
[3]宗世刚.农作物生长受气象环境的影响研究[J].现代农村科技,2015(12):18.
[4]亢岚,杨培宏,张继红,等.设施农业大棚智能监控系统设计与应用[J].价值工程,2019,38(1):165-167.
[5]王睿旭.物联网智能农业系统的设计与实现[J].南方农机,2018,49(24):147-148.
[6]郑思岐,张晓菊,吕芳.单片机和传感器联动控制的智能灌溉的可行性[J].科学技术创新,2019(3):47-48.
[7]丁维丽,王雪妍,王天龙,等.基于单片机和传感器的智能浇花器设计[J].无线互联科技,2018,15(23):50-51.
[2]许珊.关于农业大棚环境远程监控技术的研究[J].科学与信息化,2018(7):144+147.
[3]宗世刚.农作物生长受气象环境的影响研究[J].现代农村科技,2015(12):18.
[4]亢岚,杨培宏,张继红,等.设施农业大棚智能监控系统设计与应用[J].价值工程,2019,38(1):165-167.
[5]王睿旭.物联网智能农业系统的设计与实现[J].南方农机,2018,49(24):147-148.
[6]郑思岐,张晓菊,吕芳.单片机和传感器联动控制的智能灌溉的可行性[J].科学技术创新,2019(3):47-48.
[7]丁维丽,王雪妍,王天龙,等.基于单片机和传感器的智能浇花器设计[J].无线互联科技,2018,15(23):50-51.