BUILDING DESIGN MEDICAL SMARTWATCH OPTICAL HEART RECORD ACUTE CORONARY SYNDROME DETECTOR BASED INTERNET OF THINGS

This study aims to create a prototype in the form of a smartwatch specifically for medical purposes. The prototype can record heart rate activity in units of BPM (Beats Per Minute) using the internet network. The prototype also has the functional ability to provide three notification alarms when det...

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Bibliographic Details
Main Author:	Dian Fitranto, Lika
Format:	Theses
Language:	Indonesia
Online Access:	https://digilib.itb.ac.id/gdl/view/54836
Tags:	Add Tag No Tags, Be the first to tag this record!
Institution:	Institut Teknologi Bandung
Language:	Indonesia

id	id-itb.:54836
spelling	id-itb.:548362021-06-08T10:15:39ZBUILDING DESIGN MEDICAL SMARTWATCH OPTICAL HEART RECORD ACUTE CORONARY SYNDROME DETECTOR BASED INTERNET OF THINGS Dian Fitranto, Lika Indonesia Theses Medical Smartwatch, Internet of Things, Heart Record, Heart Attack, Website, Bootstrap, Acute Coronary Syndrome. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/54836 This study aims to create a prototype in the form of a smartwatch specifically for medical purposes. The prototype can record heart rate activity in units of BPM (Beats Per Minute) using the internet network. The prototype also has the functional ability to provide three notification alarms when detecting acute coronary syndrome. The acute coronary syndrome is detected by tachycardia (BPM> 100). The three types of notification alarms are indicator light warning notices on the website, turn on the buzzer speaker, and sending emails automatically to monitoring. The prototype can replace the internet access point using Wifi Manager technology and provide timely information using NTP (Network Time Protocol) technology. The prototype uses an optical heart rate sensor and an ESP8266 microcontroller. Heart rate medical record data is stored on the IoT ThingSpeak server and can update data every 15 seconds. The information is then displayed on a website developed using the XAMPP local server and the Bootstrap Framework. This research also made a casing that serves as the body of the prototype. The casing is printed using a 3D printing machine. Functional testing has been carried out to determine the prototype's performance and show how the prototype can function correctly. The results of this study are expected to be a solution for coronary heart patients who are often alone at home. By using this tool, patients can be monitored remotely by their family members, so that family members can provide emergency assistance when acute coronary syndrome occurs. Medical personnel can also use this tool to monitor the heart rate of patients with dangerous infectious diseases such as COVID-19, SARS, Ebola, and cholera to minimize transmission through direct contact. text
institution	Institut Teknologi Bandung
building	Institut Teknologi Bandung Library
continent	Asia
country	Indonesia Indonesia
content_provider	Institut Teknologi Bandung
collection	Digital ITB
language	Indonesia
description	This study aims to create a prototype in the form of a smartwatch specifically for medical purposes. The prototype can record heart rate activity in units of BPM (Beats Per Minute) using the internet network. The prototype also has the functional ability to provide three notification alarms when detecting acute coronary syndrome. The acute coronary syndrome is detected by tachycardia (BPM> 100). The three types of notification alarms are indicator light warning notices on the website, turn on the buzzer speaker, and sending emails automatically to monitoring. The prototype can replace the internet access point using Wifi Manager technology and provide timely information using NTP (Network Time Protocol) technology. The prototype uses an optical heart rate sensor and an ESP8266 microcontroller. Heart rate medical record data is stored on the IoT ThingSpeak server and can update data every 15 seconds. The information is then displayed on a website developed using the XAMPP local server and the Bootstrap Framework. This research also made a casing that serves as the body of the prototype. The casing is printed using a 3D printing machine. Functional testing has been carried out to determine the prototype's performance and show how the prototype can function correctly. The results of this study are expected to be a solution for coronary heart patients who are often alone at home. By using this tool, patients can be monitored remotely by their family members, so that family members can provide emergency assistance when acute coronary syndrome occurs. Medical personnel can also use this tool to monitor the heart rate of patients with dangerous infectious diseases such as COVID-19, SARS, Ebola, and cholera to minimize transmission through direct contact.
format	Theses
author	Dian Fitranto, Lika
spellingShingle	Dian Fitranto, Lika BUILDING DESIGN MEDICAL SMARTWATCH OPTICAL HEART RECORD ACUTE CORONARY SYNDROME DETECTOR BASED INTERNET OF THINGS
author_facet	Dian Fitranto, Lika
author_sort	Dian Fitranto, Lika
title	BUILDING DESIGN MEDICAL SMARTWATCH OPTICAL HEART RECORD ACUTE CORONARY SYNDROME DETECTOR BASED INTERNET OF THINGS
title_short	BUILDING DESIGN MEDICAL SMARTWATCH OPTICAL HEART RECORD ACUTE CORONARY SYNDROME DETECTOR BASED INTERNET OF THINGS
title_full	BUILDING DESIGN MEDICAL SMARTWATCH OPTICAL HEART RECORD ACUTE CORONARY SYNDROME DETECTOR BASED INTERNET OF THINGS
title_fullStr	BUILDING DESIGN MEDICAL SMARTWATCH OPTICAL HEART RECORD ACUTE CORONARY SYNDROME DETECTOR BASED INTERNET OF THINGS
title_full_unstemmed	BUILDING DESIGN MEDICAL SMARTWATCH OPTICAL HEART RECORD ACUTE CORONARY SYNDROME DETECTOR BASED INTERNET OF THINGS
title_sort	building design medical smartwatch optical heart record acute coronary syndrome detector based internet of things
url	https://digilib.itb.ac.id/gdl/view/54836
_version_	1822929734125748224

BUILDING DESIGN MEDICAL SMARTWATCH OPTICAL HEART RECORD ACUTE CORONARY SYNDROME DETECTOR BASED INTERNET OF THINGS

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