Telemetry System for Highland Tomato Plants Using Ubidots Platform

2022 IEEE 12th International Conference on Control System, Computing and Engineering (ICCSCE) Pub Date : 2022-10-21 DOI:10.1109/ICCSCE54767.2022.9935656

A. H. M. Saod, Muhammad Khairul Fikri Kushiar, N. H. Ishak

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Abstract

In a telemetry system, data related to the agriculture product can be monitored through the cloud server without physically being at the farm location. This project aims to develop a telemetry system for monitoring significant parameters of highland tomato plants to produce high-quality fresh tomatoes. The system is equipped with a light intensity detector, a single-chip humidity-temperature sensor, and a soil moisture sensor controlled by Raspberry Pi. The data collection is conducted at MARDI Agrotechnology Park, Cameron Highlands, to measure the parameters of red beefsteak tomatoes. The developed system can monitor the measured parameters via Ubidots dashboard and trigger the irrigation system when the soil moisture is below the optimum level. The user will be notified when the surrounding temperature is higher than the threshold value. Results show that the telemetry system can be viable for monitoring tasks. The threshold values of the highland tomato plant parameters are observed, with a minimum moisture level of 60% and a maximum temperature of 29°C to increase the tomato yield.

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基于Ubidots平台的高原番茄植株遥测系统

在遥测系统中，与农产品相关的数据可以通过云服务器进行监控，而无需实际在农场。本项目旨在开发一个遥测系统，用于监测高原番茄植株的重要参数，以生产高品质的新鲜番茄。该系统配备了一个光强探测器、一个单芯片温湿度传感器和一个由树莓派控制的土壤湿度传感器。数据收集是在金马伦高地的MARDI农业科技园进行的，用于测量红牛排番茄的参数。开发的系统可以通过Ubidots仪表盘监测测量参数，并在土壤湿度低于最佳水平时触发灌溉系统。当周围温度高于阈值时，用户将收到通知。实验结果表明，该遥测系统能够有效地完成监测任务。观察高原番茄植株参数的阈值，最低湿度为60%，最高温度为29℃，以提高番茄产量。

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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来源期刊

2022 IEEE 12th International Conference on Control System, Computing and Engineering (ICCSCE)

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