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iMHS: An IOT Embedded for Aedes Mosquito Home System

The proposed of Intelligent Mosquitoes Home System (iMHS) encompasses of a complete Internet of Things (IoT) based solution. This IoT solution shall leverage the complete eco-system consisting of the devices (i.e.Sensors), the network connectivity, the cloud computing platform, the data analytic...

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Bibliographic Details
Main Authors: Wan Aezwani, Wan Abu Bakar, Mustafa, Man, Bazilah, A.Talip, Lim, Chee Hwa, Mohd Irfan Hakim, Md Noor
Format: Conference or Workshop Item
Language:English
English
English
Published: 2019
Subjects:
QA Mathematics
Online Access:http://eprints.unisza.edu.my/2018/1/FH03-FIK-19-33803.pdf
http://eprints.unisza.edu.my/2018/2/FH03-FIK-19-33804.pdf
http://eprints.unisza.edu.my/2018/3/FH03-FIK-19-33806.jpeg
http://eprints.unisza.edu.my/2018/
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Summary:The proposed of Intelligent Mosquitoes Home System (iMHS) encompasses of a complete Internet of Things (IoT) based solution. This IoT solution shall leverage the complete eco-system consisting of the devices (i.e.Sensors), the network connectivity, the cloud computing platform, the data analytics and a comprehensive web based system. The fundamental component of IoT embedded solution is the optimization of the device from the low-power wide-area network which is designed to enable battery-powered devices to operate with a long read range. This research is to enable a suitable method to detect to status level of fluid (Attractors), or also called as Insecticide Growth Regulator (IGR) that is equipped together in the Mosquito Home System (MH). The IGR status is plotted in three (3) different status i.e. low, medium or high by using the appropriate sensors components. Here, the battery capacity is crucial to allow for a well-received and consistent communication between sensors and signal receivers. Data sent or received is processed and inserted into a database on a public server (Cloud Server). In this research, we deployed an Arduino water level sensor that is controlled by NodeMCU (ESP8266) module as the microcontroller that is powered by AA Battery pack. Prior to implementation, the result of the battery sustainability in iMHS shows that it could last for 10 days under setting with 15 interval time, assuming under normal working condition.

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