Monitoring of environmental parameters using internet of things and analysis of correlation between the parameters in a DWC hydroponic technique

Q3 Engineering International Journal of Advanced Intelligence Paradigms Pub Date : 2023-01-01 DOI:10.1504/ijaip.2023.133256

P. Srivani, C.R. Yamuna Devi, S.H. Manjula, K.R. Venugopal

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Abstract

Internet of things (IoT) plays a major role in precision and sustainable agriculture system in urban farming. Hydroponic is one such modern technique where plant growth can be controlled and monitored with ease by integrating intelligence along with sensor technology. This research work presents the hydroponic deep water culture (DWC) to grow 'Amaranthus Dibius' in an indoor system, where the roots are completely submerged in the nutrient solution. The environmental parameters that affect plant growth are monitored and gathered by employing IoT based technology integrated with cloud. The parameters monitored are humidity, air temperature, water (root zone) temperature, EC and pH values through the sensor based technology using ESP32 with OLED display. The dataset is analysed using correlation coefficient and a linear regression model to know the degree of relationship between the parameters. This model shows that there is a negative correlation between root-zone temperature and electrical conductivity (EC) value.

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基于物联网的水耕技术环境参数监测及参数间的相关性分析

在城市农业中，物联网在精准农业和可持续农业系统中发挥着重要作用。水培就是这样一种现代技术，通过集成智能和传感器技术，可以轻松地控制和监测植物的生长。这项研究工作介绍了在室内系统中水培深水培养(DWC)来种植'苋菜'，其中根部完全淹没在营养液中。通过采用与云集成的基于物联网的技术，监测和收集影响植物生长的环境参数。通过采用带有OLED显示屏的ESP32传感器技术，监测的参数包括湿度、空气温度、水(根区)温度、EC和pH值。使用相关系数和线性回归模型对数据集进行分析，以了解参数之间的关系程度。该模型表明，根区温度与电导率(EC)值呈负相关关系。

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来源期刊

International Journal of Advanced Intelligence Paradigms Engineering-Engineering (all)

CiteScore

1.70

自引率

0.00%

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