Aiding Plant Growth Difference for Indoor Vertical Garden against Traditional Outdoor Vertical Garden Setup using DHT11 and Capacitive Soil Moisture Sensor

2022 IEEE International Conference on Automatic Control and Intelligent Systems (I2CACIS) Pub Date : 2022-06-25 DOI:10.1109/i2cacis54679.2022.9815472

Ruby Jon M. Kagalingan, Bernard Piolo M. Tolentino, Jessie R. Balbin

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引用次数: 1

Abstract

Indoor gardening is concerned with the difficult task of maintaining plant life within the confines of the premises. Indoor gardening lacks the abundance of sunlight which causes imbalance in plant irrigation. Because plants require sunlight to thrive, it appears that keeping them outside is the best option. The vertical garden monitoring system aims to alleviate the difficulties by incorporating an ESP32 module board MCU, controlled lights, automated water irrigation, productive fertilizers, and data monitoring via capacitive soil moisture and DHT11 sensors, displayed within an HTML webpage. The research prototype aids the inefficiencies of indoor gardening in terms of plant growth by ANOVA test findings of sample p-value 0.121373 for Plant Height, and sample p-value 0.945192 for length of leaves. An indication that the comparison for traditional and indoor vertical garden systems had no significant difference.

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利用DHT11和电容式土壤水分传感器辅助室内垂直花园与传统室外垂直花园的植物生长差异

室内园艺是一项艰巨的任务，即在房屋的范围内维持植物的生命。室内园艺缺乏充足的阳光，导致植物灌溉不平衡。因为植物需要阳光才能茁壮成长，所以把它们放在室外似乎是最好的选择。垂直花园监控系统旨在通过集成ESP32模块板MCU、控制灯、自动灌溉、生产性肥料以及通过电容式土壤湿度和DHT11传感器进行数据监控来缓解困难，并在HTML网页中显示。该研究原型通过方差分析发现，植物高度样本p值为0.121373，叶片长度样本p值为0.945192，表明室内园艺在植物生长方面效率低下。结果表明，传统园林系统与室内垂直园林系统的对比无显著差异。

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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2022 IEEE International Conference on Automatic Control and Intelligent Systems (I2CACIS)

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