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Transferring Data from Glucometer to Mobile Device Via Bluetooth with Arduino Technology

Year 2018, Volume: 14 Issue: 1, 1 - 11, 16.08.2018

Abstract

Being healthy is
undoubtedly an indispensable necessity for human life. With technological
improvements, in the literature, various health monitoring and imaging systems
have been developed to satisfy your health needs. In this context, the work of
monitoring and recording the data of individual health monitoring data via
wireless technology is also being part of these studies. Nowadays, mobile
devices which are located in almost every house 
and which become indispensable of our life and have wireless technology
infrastructure have an important place of making follow-up health everywhere
and every time because these devices were using in the health monitoring systems.
In this study, Arduino an open-source microcontroller card was used in which a
sample glucose measuring device was connected in series. In this way, the
glucose data (glucose ratio, time) obtained with the glucometer is transferred
to the mobile device based on the Android operating system with the Bluetooth
technology channel. A mobile application was developed using the Apache Cordova
framework for listing data, presenting graphically and reading data over
Arduino. Apache Cordova, HTML, Javascript and CSS are used in coding section.
The data received from the glucometer is stored in the local database of the
mobile device. It is intended that people can transfer their measurements to
their mobile device by using wireless technology and access the graphical
representations of their data. In this context, the aim of the study is to be
able to perform health monitoring by using different wireless technologies in
mobile devices that can respond to different wireless technologies at present.
Thus, that will contribute the other works done in this area.

References

  • R. Kurban, Wireless Portable Remote Health Monitoring System:Mobile Health Assistant. Graduate dissertation, University of Erciyes, Kayseri, (2006)
  • İ. Aydın, Diabetes. Ayrıntı Journal, Vol. 1:9, (2013), 25-28
  • N. Zarka, “Patient Keeper” Medical Application on Mobile Phone, International Conference on Information and Communication Technologies: From Theory to Applications, Syria, April (2004)
  • Y.K. Yüce, U. Bilge, O. Saka, MATDS: Mobil Astım Takip ve Değerlendirme Sistemi, 2nd National Medical Informatics Congress, Antalya, November (2005)
  • W.Y. Chung, C.L. Yau, K.S. Shin, R. Myllyla, A Cell Phone Based Health Monitoring System With Self Analysis Processor Using Wireless Sensor Network Technology, 29th Annual International Conference of the IEEE EMBS Cite Internationale, Lyon, August (2007)
  • W.T. Tang, C.M. Hu, C.Y. Hsu, A Mobile Phone Based Homecare Management System On The Cloud. Biomedical Engineering and Informatics (BMEI), Vol. 6, (2010), 2442 – 2445
  • S. Klug, K. Krupka, H. Dickhaus, H.A. Katus, T. Hilbel, Displaying Computerized ECG Recordings and Vital Signs on Windows Phone 7 Smartphones, Computing in Cardiology, Vol. 37, (2010), 1067 – 1070
  • M. Yang, X. He, L. Gao, L. Zhao, An Innovative System Of Health Monitoring Using Mobile Phones, 14th International Conference on e-Health Networking, Applications and Services (Healthcom 2012), Beijing, October (2012)
  • K. Rozanowski, Z. Piotrowski, M. Ciolek, Mobile Application for Driver’s Health Status Remote Monitoring, Wireless Communications and Mobile Computing Conference (IWCMC), Sardinia, July (2013)
  • T. Cura, Sağlık Sektörü İçin Düşük Maliyetli Bir Mobil Hasta Takip Sistemi Önerisi. Alphanumeric Journal, Vol. 1, (2013), 13–26
  • K.M. Kumar, R.S. Venkatesan, A Design Approach To Smart Health Monitoring Using Android Mobile Devices, 2014 IEEE International Conference on Advanced Communication Control and Computing Technologies (ICACCCT) , Ramanathapuram, May (2014)
  • J.E. Chua, J.A. Zaldua, T.J. Sevilla, M.J. Tapel, M.R. Orlino, D.C. Rasing, C.M. Lee-Ramos, An Android Phone Application for a Health Monitoring System with Integrated Medical Devices and Localized Health Information and Database For Healthy Lifestyle Changes, 7th IEEE International Conference Humanoid, Nanotechnology, Information Technology Communication and Control, Environment and Management (HNICEM), Philippines, November (2014)
  • V. Villarreal, J. Fontecha, R. Hervas, J. Bravo, Mobile and Ubiquitous Architecture for the Medical Control of Chronic Diseases Through The Use of Intelligent Devices: Using the Architecture for Patients with Diabetes, Future Generation Computer Systems, Vol. 34, (2014), 161–175
  • A. Triantafyllidis, C. Velardo, T. Chantler, S.A. Shaha, C. Patonb, R. Khorshidi, L. Tarassenko, K. Rahimi, A Personalised Mobile-Based Home Monitoringsystem for Heart Failure: The SUPPORT-HF Study, International Journal of Medical Informatics, Vol. 3192, (2015), 743-753
  • N.V. Panicker, A.S. Kumar, Development of a Blood Pressure Monitoring System for Home Health Application, Circuit, Power and Computing Technologies (ICCPCT), 2015 International Conference, Nagercoil, March (2015)
  • T. Hayıt, U. Ergün, Sağlık Sektöründe Geliştirilen Mobil Uygulamaların Incelenmesi ve Mobil Cihazlar için Hasta Takip Uygulaması Örneği, Online Academic Journal of Information Technology, Vol. 7:23, (2016), 97 – 114
  • e-Health Sensor Shield Description. (2017, July). Retrieved from https://www.cooking-hacks.com/ehealth-sensor-shield-biometric-medical-arduino-raspberry-pi
  • Glucometer BLE Sensor Description. (2017, August). Retrieved from https://www.cooking-hacks.com/glucometer-ble-sensor-mysignals-ehealth-medical
  • Arduino Uno Rev3. (2017, August). Retrieved from https://store.arduino.cc/usa/arduino-uno-rev3
  • Bluetooth Transceiver Module. (2017, September). Retrieved from http://wiki.sunfounder.cc/index.php?title=Bluetooth_Transceiver_Mo dule_ HC-06
  • Smartphone OS Market Share. (2017, September). Retrieved from https://www.idc.com/promo/smartphone-market-share/os
  • Apache Cordova Overview. (2017, September). Retrieved from https://cordova.apache.org/docs/en/latest/guide/overview/
Year 2018, Volume: 14 Issue: 1, 1 - 11, 16.08.2018

Abstract

References

  • R. Kurban, Wireless Portable Remote Health Monitoring System:Mobile Health Assistant. Graduate dissertation, University of Erciyes, Kayseri, (2006)
  • İ. Aydın, Diabetes. Ayrıntı Journal, Vol. 1:9, (2013), 25-28
  • N. Zarka, “Patient Keeper” Medical Application on Mobile Phone, International Conference on Information and Communication Technologies: From Theory to Applications, Syria, April (2004)
  • Y.K. Yüce, U. Bilge, O. Saka, MATDS: Mobil Astım Takip ve Değerlendirme Sistemi, 2nd National Medical Informatics Congress, Antalya, November (2005)
  • W.Y. Chung, C.L. Yau, K.S. Shin, R. Myllyla, A Cell Phone Based Health Monitoring System With Self Analysis Processor Using Wireless Sensor Network Technology, 29th Annual International Conference of the IEEE EMBS Cite Internationale, Lyon, August (2007)
  • W.T. Tang, C.M. Hu, C.Y. Hsu, A Mobile Phone Based Homecare Management System On The Cloud. Biomedical Engineering and Informatics (BMEI), Vol. 6, (2010), 2442 – 2445
  • S. Klug, K. Krupka, H. Dickhaus, H.A. Katus, T. Hilbel, Displaying Computerized ECG Recordings and Vital Signs on Windows Phone 7 Smartphones, Computing in Cardiology, Vol. 37, (2010), 1067 – 1070
  • M. Yang, X. He, L. Gao, L. Zhao, An Innovative System Of Health Monitoring Using Mobile Phones, 14th International Conference on e-Health Networking, Applications and Services (Healthcom 2012), Beijing, October (2012)
  • K. Rozanowski, Z. Piotrowski, M. Ciolek, Mobile Application for Driver’s Health Status Remote Monitoring, Wireless Communications and Mobile Computing Conference (IWCMC), Sardinia, July (2013)
  • T. Cura, Sağlık Sektörü İçin Düşük Maliyetli Bir Mobil Hasta Takip Sistemi Önerisi. Alphanumeric Journal, Vol. 1, (2013), 13–26
  • K.M. Kumar, R.S. Venkatesan, A Design Approach To Smart Health Monitoring Using Android Mobile Devices, 2014 IEEE International Conference on Advanced Communication Control and Computing Technologies (ICACCCT) , Ramanathapuram, May (2014)
  • J.E. Chua, J.A. Zaldua, T.J. Sevilla, M.J. Tapel, M.R. Orlino, D.C. Rasing, C.M. Lee-Ramos, An Android Phone Application for a Health Monitoring System with Integrated Medical Devices and Localized Health Information and Database For Healthy Lifestyle Changes, 7th IEEE International Conference Humanoid, Nanotechnology, Information Technology Communication and Control, Environment and Management (HNICEM), Philippines, November (2014)
  • V. Villarreal, J. Fontecha, R. Hervas, J. Bravo, Mobile and Ubiquitous Architecture for the Medical Control of Chronic Diseases Through The Use of Intelligent Devices: Using the Architecture for Patients with Diabetes, Future Generation Computer Systems, Vol. 34, (2014), 161–175
  • A. Triantafyllidis, C. Velardo, T. Chantler, S.A. Shaha, C. Patonb, R. Khorshidi, L. Tarassenko, K. Rahimi, A Personalised Mobile-Based Home Monitoringsystem for Heart Failure: The SUPPORT-HF Study, International Journal of Medical Informatics, Vol. 3192, (2015), 743-753
  • N.V. Panicker, A.S. Kumar, Development of a Blood Pressure Monitoring System for Home Health Application, Circuit, Power and Computing Technologies (ICCPCT), 2015 International Conference, Nagercoil, March (2015)
  • T. Hayıt, U. Ergün, Sağlık Sektöründe Geliştirilen Mobil Uygulamaların Incelenmesi ve Mobil Cihazlar için Hasta Takip Uygulaması Örneği, Online Academic Journal of Information Technology, Vol. 7:23, (2016), 97 – 114
  • e-Health Sensor Shield Description. (2017, July). Retrieved from https://www.cooking-hacks.com/ehealth-sensor-shield-biometric-medical-arduino-raspberry-pi
  • Glucometer BLE Sensor Description. (2017, August). Retrieved from https://www.cooking-hacks.com/glucometer-ble-sensor-mysignals-ehealth-medical
  • Arduino Uno Rev3. (2017, August). Retrieved from https://store.arduino.cc/usa/arduino-uno-rev3
  • Bluetooth Transceiver Module. (2017, September). Retrieved from http://wiki.sunfounder.cc/index.php?title=Bluetooth_Transceiver_Mo dule_ HC-06
  • Smartphone OS Market Share. (2017, September). Retrieved from https://www.idc.com/promo/smartphone-market-share/os
  • Apache Cordova Overview. (2017, September). Retrieved from https://cordova.apache.org/docs/en/latest/guide/overview/
There are 22 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Articles
Authors

TOLGA Hayıt

UÇMAN Ergün

Publication Date August 16, 2018
Submission Date March 16, 2018
Published in Issue Year 2018 Volume: 14 Issue: 1

Cite

APA Hayıt, T., & Ergün, U. (2018). Transferring Data from Glucometer to Mobile Device Via Bluetooth with Arduino Technology. Electronic Letters on Science and Engineering, 14(1), 1-11.