Application of Soil Sensors for Maximizing Productivity Using IoT Framework

Subhrapratim Nath, Anup Dey, Papiya Das, Dyuti Mohapatra, J. Sing, Saumendra N. Sarkar
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引用次数: 1

Abstract

Sensor gadgets have discovered discernable unmistakable quality in present day world for government assistance of individuals in fields like agribusiness. Soil wellbeing is a significant viewpoint to be considered in farming which decides creation as well as keeps in count the dirt causticity, soil dampness just as the minerals presents in soil. In this paper a sensor cluster gadget is proposed which will assist with deciding the dirt dampness, the corrosiveness just as the minerals deciding soil quality like Nitrogen, Phosphorus and Potassium (NPK). Two gadgets p-Si/ SiO2/ CuO and p-Si/ SiO2/ Au-CuO have been manufactured for getting NPK based soil sensor esteems from the dirt dampness and are thought about for best reasonableness. This entire ongoing framework is projected on Indian Rice development and has been carried out by Internet of Things (IoT) utilizing Message Queuing Telemetry Transport (MQTT) convention where man-made consciousness has been joined for precise information examination. Upgraded selectivity and affectability of the proposed sensor exhibit alongside an easy to use interface guarantees an ideal answer for increment horticultural efficiency.
土壤传感器在物联网框架下实现生产力最大化的应用
在当今世界,传感器设备已经发现了可识别的准确无误的质量,用于政府在农业综合企业等领域为个人提供帮助。土壤健康是农业生产中需要考虑的一个重要问题,它决定了土壤的创造,并记录了土壤的腐蚀性,土壤的湿度,就像土壤中的矿物质一样。本文提出了一种像氮、磷、钾(NPK)等矿物质决定土壤质量一样有助于确定土壤湿度、腐蚀性的传感器簇装置。制备了p-Si/ SiO2/ CuO和p-Si/ SiO2/ Au-CuO两种器件,用于从土壤湿度中获得基于NPK的土壤传感器,并考虑了最佳的合理性。整个正在进行的框架预计将用于印度水稻的开发,并通过利用消息队列遥测传输(MQTT)协议的物联网(IoT)实施,其中已加入人为意识以进行精确的信息检查。所提出的传感器的升级选择性和敏感性以及易于使用的界面保证了增加园艺效率的理想答案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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