IoT-based Smartfarm Technology for Rice Farming

M. Khairudin, Anggoro Fajar Dwi U, M. L. Hakim, Asri Widowati, E. Prasetyo, Yusuf Kurniawan, M. N. A. Azman
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Abstract

One of the big problems in agriculture in the tropics, especially in Indonesia, is rainy and dry seasons. During the rainy season, agriculture in Indonesia in general can run smoothly because the water resource as the main supply of water for various types of plants is available regularly and in abundance. During the rainy season, agricultural products, including livestock abound, because animal feed is also available in abundance. However, a phenomenon occurs during the dry season. When the water supply is minimal or even unavailable, the planting process decreases and even fails before the harvest season. This research tried to bridge the agricultural sector so that it can continue to strive without being affected by the seasons. It is hoped that the agricultural sector can increase its production. This research integrated information and communication technologies (ICTs) through engineering variable measurements of soil water availability, soil moisture, air humidity, temperature of the planting environment, and real-time monitoring of plant conditions. The measurements of several determinant variables in agriculture were followed by responses to the measurement results. It is expected that the process of maintaining crop quality can be done all day until harvest. This technology is applicable to assist farmers in monitoring soil moisture, water level, and water discharge produced. This technology was also designed to be connected to the Internet of Things (IoT) in which data on soil moisture, water level, and water discharge are processed and sent to users. The data sent are connected to the Smartfarm web which can be accessed through smartphones. In addition, this technology is anti-theft and can be operated and monitored remotely.  
基于物联网的水稻种植智能农场技术
在热带地区,特别是在印度尼西亚,农业面临的一个大问题是雨季和旱季。在雨季,印度尼西亚的农业总体上可以顺利进行,因为水资源是各种类型植物的主要供水来源,可以定期获得丰富的水资源。在雨季,包括牲畜在内的农产品丰富,因为动物饲料也很丰富。然而,在旱季会出现一种现象。当供水很少甚至没有水供应时,种植过程就会减少,甚至在收获季节之前就失败了。这项研究试图在农业部门之间架起桥梁,使其能够在不受季节影响的情况下继续努力。希望农业部门能够增加其产量。该研究通过对土壤水分有效性、土壤湿度、空气湿度、种植环境温度的工程变量测量以及对植物状况的实时监测,集成了信息和通信技术(ict)。对农业中的几个决定变量进行了测量,然后对测量结果进行了响应。预计保持作物品质的过程可以全天进行,直到收获。该技术适用于帮助农民监测土壤湿度、水位和生产水量。该技术还被设计为与物联网(IoT)连接,在物联网中处理土壤湿度、水位、水量等数据并发送给用户。发送的数据连接到智能农场网络,可以通过智能手机访问。此外,该技术具有防盗性,可以远程操作和监控。
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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