Research Article
A Real Time Infant Health Monitoring System for Hard of Hearing Parents by using Android-based Mobil Devices
Abstract
An infant monitoring system basically includes sensors and a
microcontroller. A sensor device which is capable of sensing several vital
physiological data (ECG, body temperature, SpO2, blood pressure,
etc.) from human bodies and sending them to the microcontroller using analog or
digital outputs. In this study, a real-time infant monitoring system by using
android-based mobile devices especially for hard of hearing parents is
developed and implemented. An Arduino Leonardo board has been used in system
design which is attached to body temperature sensor, sound detection sensor,
finger heartbeat detector, and humidity sensor. In order to alarm conditions notify
to hard of hearing parents, an android-based application has been developed. The
results show that it is observed the data collected from the sensors are
monitored real-time and that the alarms determined when abnormal conditions
occurred were noticed successfully.
References
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- [2] E. Saadatian, S. P. Iyer, C. Lihui, O. N. N. Fernando, N. Hideaki, A. D. Cheok, A. P. Maduapperuma, G. Ponnampalam, Z. Amin, “Low Cost Infant Monitoring and Communication System”, in 2011 IEEE Colloquium on Humanities, Science and Engineering Research (CHUSER 2011), Penang, CHINA, 2011, pp. 503-508.
- [3] S-H. Cheng, J-C. Huang, C-J Lin, "A real-time Location and Infant Monitoring System Based on Active RFID", in Proceedings of the 2012 International Conference on Machine Learning and Cybernetics, Xian, CHINA, 2012, pp. 1844-1849.
- [4] W. Lin, R. Zhang, J. Brittelli, C. Lehmann, " Wireless Infant Monitoring Device for the Prevention of Sudden Infant Death Syndrome", in 11th International Conference & Expo on Emerging Technologies for a Smarter World (CEWIT), New York, USA, 2014.
- [5] S. Mohajerani, S. A. H. Moosavi, R-A. Rihawi, B. Ahmed, A. N. Bhat, R. Y. Kamal, "A Cloud-Based System for Real-Time, Remote Physiological Monitoring of Infants", in IEEE International Symposium on Signal Processing and Information Technology (ISSPIT), Abu Dhabi, UAE, 2015, pp. 565-569.
- [6] H. Zhou, B. Goold, "A Domestic Adaptable Infant Monitoring System Using Wireless Sensor Networks", in IEEE 34th International Performance Computing and Communications Conference (IPCCC), Nanjing, CHINA, 2015.
- [7] A. G. Ferreira, D. Fernandes, S. Branco, J. L. Monteiro, J. Cabral, A. P. Catarino, A. M. Rocha, "A Smart Wearable System for Sudden Infant Death Syndrome Monitoring", in IEEE International Conference on Industrial Technology (ICIT), Taipei, TAIWAN, 2016, pp. 1920-1925.
- [8] P. Kumari, P. Goel, S. R. N. Reddy, "PiCam: IoT based Wireless Alert System for Deaf and Hard of Hearing", in International Conference on Advanced Computing and Communications, Coimbatore, INDIA, 2015, pp. 39-44.
- [9] M-J. Wu, S-F. Shieh, Y-L. Liao, Y-C. Chen, "ECG Measurement System Based on Arduino and Android Devices”, in International Symposium on Computer, Consumer and Control, Xian, CHINA, 2016, pp. 690-693.
- [10] H. Deng, S. Chen, "Design and implementation of Android-based health and healthcare system”, in International Wireless Communications and Mobile Computing Conference (IWCMC), Paphos, CYPRUS, 2016, pp. 164-169.
- [11] S. Agezo, Y. Zhang, Z. Ye, S. Chopra, S. Vora, T. Kurzweg, "Battery-Free RFID Heart Rate Monitoring System”, in IEEE Wireless Health (WH), Bethesda, MD, 2016, pp. 136-142.
- [12] V. Wahane, "An Android Based Wireless ECG Monitoring System for Cardiac Arrhythmia”, in IEEE Healthcare Innovation Point-Of-Care Technologies Conference (HI-POCT), Cancun, MEXICO, 2016, pp. 183-187.
- [13] P. S. Chowdary, S. Aruna, "Infant Monitoring System", International Journal of Computer Science and Communication, vol. 2, no. 2, pp. 501-503, July-December, 2011.
- [14] www.arduino.cc/en/Main/ArduinoBoardLeonardo
- [15] http://pighixxx.com
- [16] http://datasheets.maximintegrated.com/en/ds/DS18B20.pdf
- [17] http://www.zoebachman.net/itp/?p=190
- [18]https://www.itead.cc/wiki/Serial_Port_Bluetooth_Module_(Master/Slave)_:_HC-05
- [19] http://appinventor.mit.edu/explore/
Year 2017,
Volume: 17 Issue: 1, 3121 - 3127, 27.03.2017
Abstract
References
- [1] H. Cao, L-C. Hsu, T. Ativanichayaphong, J. Sin, J-C Chiao, "A non-invasive and remote infant monitoring system using CO2 sensors", in IEEE Sensors 2007 Conference, Atlanta, USA, 2007, pp. 989-992.
- [2] E. Saadatian, S. P. Iyer, C. Lihui, O. N. N. Fernando, N. Hideaki, A. D. Cheok, A. P. Maduapperuma, G. Ponnampalam, Z. Amin, “Low Cost Infant Monitoring and Communication System”, in 2011 IEEE Colloquium on Humanities, Science and Engineering Research (CHUSER 2011), Penang, CHINA, 2011, pp. 503-508.
- [3] S-H. Cheng, J-C. Huang, C-J Lin, "A real-time Location and Infant Monitoring System Based on Active RFID", in Proceedings of the 2012 International Conference on Machine Learning and Cybernetics, Xian, CHINA, 2012, pp. 1844-1849.
- [4] W. Lin, R. Zhang, J. Brittelli, C. Lehmann, " Wireless Infant Monitoring Device for the Prevention of Sudden Infant Death Syndrome", in 11th International Conference & Expo on Emerging Technologies for a Smarter World (CEWIT), New York, USA, 2014.
- [5] S. Mohajerani, S. A. H. Moosavi, R-A. Rihawi, B. Ahmed, A. N. Bhat, R. Y. Kamal, "A Cloud-Based System for Real-Time, Remote Physiological Monitoring of Infants", in IEEE International Symposium on Signal Processing and Information Technology (ISSPIT), Abu Dhabi, UAE, 2015, pp. 565-569.
- [6] H. Zhou, B. Goold, "A Domestic Adaptable Infant Monitoring System Using Wireless Sensor Networks", in IEEE 34th International Performance Computing and Communications Conference (IPCCC), Nanjing, CHINA, 2015.
- [7] A. G. Ferreira, D. Fernandes, S. Branco, J. L. Monteiro, J. Cabral, A. P. Catarino, A. M. Rocha, "A Smart Wearable System for Sudden Infant Death Syndrome Monitoring", in IEEE International Conference on Industrial Technology (ICIT), Taipei, TAIWAN, 2016, pp. 1920-1925.
- [8] P. Kumari, P. Goel, S. R. N. Reddy, "PiCam: IoT based Wireless Alert System for Deaf and Hard of Hearing", in International Conference on Advanced Computing and Communications, Coimbatore, INDIA, 2015, pp. 39-44.
- [9] M-J. Wu, S-F. Shieh, Y-L. Liao, Y-C. Chen, "ECG Measurement System Based on Arduino and Android Devices”, in International Symposium on Computer, Consumer and Control, Xian, CHINA, 2016, pp. 690-693.
- [10] H. Deng, S. Chen, "Design and implementation of Android-based health and healthcare system”, in International Wireless Communications and Mobile Computing Conference (IWCMC), Paphos, CYPRUS, 2016, pp. 164-169.
- [11] S. Agezo, Y. Zhang, Z. Ye, S. Chopra, S. Vora, T. Kurzweg, "Battery-Free RFID Heart Rate Monitoring System”, in IEEE Wireless Health (WH), Bethesda, MD, 2016, pp. 136-142.
- [12] V. Wahane, "An Android Based Wireless ECG Monitoring System for Cardiac Arrhythmia”, in IEEE Healthcare Innovation Point-Of-Care Technologies Conference (HI-POCT), Cancun, MEXICO, 2016, pp. 183-187.
- [13] P. S. Chowdary, S. Aruna, "Infant Monitoring System", International Journal of Computer Science and Communication, vol. 2, no. 2, pp. 501-503, July-December, 2011.
- [14] www.arduino.cc/en/Main/ArduinoBoardLeonardo
- [15] http://pighixxx.com
- [16] http://datasheets.maximintegrated.com/en/ds/DS18B20.pdf
- [17] http://www.zoebachman.net/itp/?p=190
- [18]https://www.itead.cc/wiki/Serial_Port_Bluetooth_Module_(Master/Slave)_:_HC-05
- [19] http://appinventor.mit.edu/explore/
There are 19 citations in total.
Details
| Journal Section | Articles |
|---|---|
| Authors | |
| Publication Date | March 27, 2017 |
| Published in Issue | Year 2017 Volume: 17 Issue: 1 |
