A Novel IoT-based Framework for Non-Invasive Human Hygiene Monitoring using Machine Learning Techniques

Peoples' personal hygiene habits speak volumes about the condition of taking care of their bodies and health in daily lifestyle. Maintaining good hygiene practices not only reduces the chances of contracting a disease but could also reduce the risk of spreading illness within the community. Giv...

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Main Authors: Hossain Faruk, Md Jobair, Trivedi, Shashank, Masum, Mohammad, Valero, Maria, Shahriar, Hossain, Ahamed, Sheikh Iqbal
Format: Conference Proceeding
Language:English
Subjects:
Feature Selection
Human Hygiene
Machine learning
Medical services
Non-invasive Monitoring
Pandemics
Sensors
Sociology
Support Vector Machine (SVM)
Support vector machines
Vibration Sensor
Vibrations
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creator Hossain Faruk, Md Jobair
Trivedi, Shashank
Masum, Mohammad
Valero, Maria
Shahriar, Hossain
Ahamed, Sheikh Iqbal
description Peoples' personal hygiene habits speak volumes about the condition of taking care of their bodies and health in daily lifestyle. Maintaining good hygiene practices not only reduces the chances of contracting a disease but could also reduce the risk of spreading illness within the community. Given the current pandemic, daily habits such as washing hands or taking regular showers have taken primary importance among people, especially for the elderly population living alone at home or in an assisted living facility. This paper presents a novel and non-invasive framework for monitoring human hygiene using vibration sensors where we adopt Machine Learning techniques. The approach is based on a combination of a geophone sensor, a digitizer, and a cost-efficient computer board in a practical enclosure. Monitoring daily hygiene routine may help healthcare professionals be proactive rather than reactive in identifying and controlling the spread of potential outbreaks within the community. The experimental result indicates that applying a Support Vector Machine (SVM) for binary classification exhibits a promising accuracy of ~95% in classification of different hygiene habits. Furthermore, both tree-based classifier (Random Forrest and Decision Tree) outperforms other models by achieving the highest accuracy (100%), which means that classifying hygiene events using vibration and non-invasive sensors is possible for monitoring hygiene activity.
doi_str_mv 10.1109/ICHI54592.2022.00063
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source IEEE Xplore All Conference Series
subjects Feature Selection
Human Hygiene
Machine learning
Medical services
Non-invasive Monitoring
Pandemics
Sensors
Sociology
Support Vector Machine (SVM)
Support vector machines
Vibration Sensor
Vibrations
title A Novel IoT-based Framework for Non-Invasive Human Hygiene Monitoring using Machine Learning Techniques
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