Smart Irrigation based on Crops using IoT

2020 IEEE 15th International Conference on Industrial and Information Systems (ICIIS) Pub Date : 2020-11-26 DOI:10.1109/ICIIS51140.2020.9342736

Shyam Peraka, R. Sudheer, B. N. Rao, A. Teja, E. N. Kumar

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引用次数: 7

Abstract

Water is the main resource for Agriculture and still, most of the farmers are using traditional methods of irrigation for farming and a large amount of water is getting wasted due to these methods. These outdated techniques have to be replaced with automated techniques. In this paper, we proposed a new irrigation system, which works based on the latest IoT technology to reduce the wastage of water and it reduces manual labor to irrigate the crops. The main objective of the proposed irrigation system is to supply the required amount of water to the crop based on the type and stage of the crop. The proposed irrigation system pumps the water to the crop based on the type, area, and date of the plantation of the crop, and these parameters are registered by the farmer through the IoT-based Android App. The designed irrigation system uses ESP8266 Controller, Moisture, and Water Level sensors for irrigating the crops. The problem with the moisture sensor-based irrigation system is supplying water to the crop only based on the sensor reading, but different crops require different amounts of water at different stages. Hence, in this paper, we divided the total crop duration into five different stages. Based on the type and stage, the crop gets irrigated automatically using the motor incorporated in the circuit and the motor action can be controlled using the algorithm designed for ESP8266. Another problem with the moisture sensor is it shows maximum reading even when the water level is low. This problem can be resolved by using a water level sensor and hence, the proposed smart irrigation system is superior to the existing moisture sensor-based irrigation system. The key factor involved in the proposed methodology is fixing the water level of the crop instead of the quantity of water. The water level is measured by using a level sensor and it measures the water level in terms of the height of water in the field. Hence, the proposed irrigation system works efficiently in both rainy and high-temparature conditions.

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基于物联网的农作物智能灌溉

水是农业的主要资源，然而，大多数农民仍在使用传统的灌溉方法进行耕作，由于这些方法，大量的水被浪费了。这些过时的技术必须被自动化技术所取代。在本文中，我们提出了一种新的灌溉系统，该系统基于最新的物联网技术，减少了水的浪费，减少了灌溉作物的人工劳动。所建议的灌溉系统的主要目标是根据作物的类型和生长阶段向作物提供所需的水量。所设计的灌溉系统根据作物种植的类型、面积和日期将水泵入作物，并由农民通过基于物联网的Android应用程序登记这些参数。所设计的灌溉系统使用ESP8266控制器、湿度和水位传感器对作物进行灌溉。基于水分传感器的灌溉系统的问题是，只根据传感器的读数给作物供水，但不同的作物在不同的阶段需要不同的水量。因此，在本文中，我们将整个作物生育期分为五个不同的阶段。根据作物的类型和阶段，利用电路中内置的电机自动灌溉作物，并利用ESP8266设计的算法控制电机的动作。湿度传感器的另一个问题是，即使水位低，它也显示最大读数。这个问题可以通过使用水位传感器来解决，因此，所提出的智能灌溉系统优于现有的基于湿度传感器的灌溉系统。拟议的方法所涉及的关键因素是确定作物的水位，而不是水量。水位是通过一个液位传感器来测量的，它根据场地中水的高度来测量水位。因此，所提出的灌溉系统在多雨和高温条件下都能有效地工作。

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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2020 IEEE 15th International Conference on Industrial and Information Systems (ICIIS)

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