Embedded Dual Band Rfid Based Blood Glucose Monitoring System For Internet Of Medical Things

Embedded Dual Band Rfid Based Blood Glucose Monitoring System For Internet Of Medical Things

Manually recorded health information could lead to errors such as inaccurate patient identification and mismatch patient data that could seriously affect patient safety. In order to reduce the risks of error for patients with diabetes, a new design of wireless blood glucose monitoring system with th...

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Main Author: Hamid, Shabinar Abdul
Format: Thesis
Language:English
Published: 2020
Subjects:
TK1-9971 Electrical engineering. Electronics. Nuclear engineering
Online Access:http://eprints.usm.my/48018/1/Embedded%20Dual%20Band%20Rfid%20Based%20Blood%20Glucose%20Monitoring%20System%20For%20Internet%20Of%20Medical%20Things.pdf
http://eprints.usm.my/48018/
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Institution: Universiti Sains Malaysia
Language: English
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spelling my.usm.eprints.48018 http://eprints.usm.my/48018/ Embedded Dual Band Rfid Based Blood Glucose Monitoring System For Internet Of Medical Things Hamid, Shabinar Abdul TK1-9971 Electrical engineering. Electronics. Nuclear engineering Manually recorded health information could lead to errors such as inaccurate patient identification and mismatch patient data that could seriously affect patient safety. In order to reduce the risks of error for patients with diabetes, a new design of wireless blood glucose monitoring system with the embedment of dual band RFID for Internet of Medical Things is being developed. Using this method, passive RFID allows short-range communication to read automatically the patient identification number and active RFID extends long-range communication for recording and monitoring blood glucose data through multi-hop WSN. The work presented in this thesis contributes mainly to the embedded system and its application in healthcare to reduce the burden of recording, tracing and monitoring the patient‘s data by embedding blood glucose sensor, passive RFID, active RFID, WSN, M2M and IoMT into a single platform. A new design concept is established for the patient identification mechanism, where the mechanism is embedded in the source device to enhance the ability of the system to automatically assign the identification number to each blood glucose measurement (mmol/L) during multiple patients monitoring. Additionally, the results from the experiments conducted showed that the developed system produced better overall performance compared to the Bluetooth BGM and conventional BGM system in terms of the shortest recording time and the ability to retransmit data. In the reliability analysis using ANOVA and DOE statistical methods, the result validates that the number of hop and number of end node significantly affects the PDR performance of conventional CSMA/CA. These two parameters are then taken into account in experimental setup for performance evaluation of the enhanced CSMA/CA (EN-CSMA/CA) algorithm that uses an external interrupt mechanism and a cross layer approach. The PDR increased from 94% (conventional CSMA/CA) to 99.33% (EN-CSMA/CA), an improvement of 5.33%. The PDR model estimates that for the best and worst scenario, the percentage of PDR is 100.0% and 51.67%, respectively. To optimize the arrangement of routers for real implementation of the developed system in health facilities, the developed path loss model estimates that the router should be positioned at a distance of 30 m from each other, which agrees with the test results which indicate that the router should be positioned ≤ 40 m in order to achieve the best PDR performance. 2020-03-01 Thesis NonPeerReviewed application/pdf en http://eprints.usm.my/48018/1/Embedded%20Dual%20Band%20Rfid%20Based%20Blood%20Glucose%20Monitoring%20System%20For%20Internet%20Of%20Medical%20Things.pdf Hamid, Shabinar Abdul (2020) Embedded Dual Band Rfid Based Blood Glucose Monitoring System For Internet Of Medical Things. PhD thesis, Universiti Sains Malaysia.
institution Universiti Sains Malaysia
building Hamzah Sendut Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Sains Malaysia
content_source USM Institutional Repository
url_provider http://eprints.usm.my/
language English
topic TK1-9971 Electrical engineering. Electronics. Nuclear engineering
spellingShingle TK1-9971 Electrical engineering. Electronics. Nuclear engineering
Hamid, Shabinar Abdul
Embedded Dual Band Rfid Based Blood Glucose Monitoring System For Internet Of Medical Things
description Manually recorded health information could lead to errors such as inaccurate patient identification and mismatch patient data that could seriously affect patient safety. In order to reduce the risks of error for patients with diabetes, a new design of wireless blood glucose monitoring system with the embedment of dual band RFID for Internet of Medical Things is being developed. Using this method, passive RFID allows short-range communication to read automatically the patient identification number and active RFID extends long-range communication for recording and monitoring blood glucose data through multi-hop WSN. The work presented in this thesis contributes mainly to the embedded system and its application in healthcare to reduce the burden of recording, tracing and monitoring the patient‘s data by embedding blood glucose sensor, passive RFID, active RFID, WSN, M2M and IoMT into a single platform. A new design concept is established for the patient identification mechanism, where the mechanism is embedded in the source device to enhance the ability of the system to automatically assign the identification number to each blood glucose measurement (mmol/L) during multiple patients monitoring. Additionally, the results from the experiments conducted showed that the developed system produced better overall performance compared to the Bluetooth BGM and conventional BGM system in terms of the shortest recording time and the ability to retransmit data. In the reliability analysis using ANOVA and DOE statistical methods, the result validates that the number of hop and number of end node significantly affects the PDR performance of conventional CSMA/CA. These two parameters are then taken into account in experimental setup for performance evaluation of the enhanced CSMA/CA (EN-CSMA/CA) algorithm that uses an external interrupt mechanism and a cross layer approach. The PDR increased from 94% (conventional CSMA/CA) to 99.33% (EN-CSMA/CA), an improvement of 5.33%. The PDR model estimates that for the best and worst scenario, the percentage of PDR is 100.0% and 51.67%, respectively. To optimize the arrangement of routers for real implementation of the developed system in health facilities, the developed path loss model estimates that the router should be positioned at a distance of 30 m from each other, which agrees with the test results which indicate that the router should be positioned ≤ 40 m in order to achieve the best PDR performance.
format Thesis
author Hamid, Shabinar Abdul
author_facet Hamid, Shabinar Abdul
author_sort Hamid, Shabinar Abdul
title Embedded Dual Band Rfid Based Blood Glucose Monitoring System For Internet Of Medical Things
title_short Embedded Dual Band Rfid Based Blood Glucose Monitoring System For Internet Of Medical Things
title_full Embedded Dual Band Rfid Based Blood Glucose Monitoring System For Internet Of Medical Things
title_fullStr Embedded Dual Band Rfid Based Blood Glucose Monitoring System For Internet Of Medical Things
title_full_unstemmed Embedded Dual Band Rfid Based Blood Glucose Monitoring System For Internet Of Medical Things
title_sort embedded dual band rfid based blood glucose monitoring system for internet of medical things
publishDate 2020
url http://eprints.usm.my/48018/1/Embedded%20Dual%20Band%20Rfid%20Based%20Blood%20Glucose%20Monitoring%20System%20For%20Internet%20Of%20Medical%20Things.pdf
http://eprints.usm.my/48018/
_version_ 1717094499213115392

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