Heartbeat Monitoring and Alert System Using GSM Technology

Authors

  • Karthik R.  Assistant Professor, Department of Computer Science, Sri Krishna College of Technology Kovaipudur, Coimbatore, Tamil Nadu, India
  • Ruban Paul Issac D.  Department of Computer Science, Sri Krishna College of Technology Kovaipudur, Coimbatore, Tamil Nadu, India
  • Saravanan S.  Department of Computer Science, Sri Krishna College of Technology Kovaipudur, Coimbatore, Tamil Nadu, India
  • Vijay V.   Department of Computer Science, Sri Krishna College of Technology Kovaipudur, Coimbatore, Tamil Nadu, India

DOI:

https://doi.org//10.32628/CSEIT195230

Keywords:

Pulse Sensor, Temperature Sensor, Heartbeat Rate

Abstract

Health related issues are utmost importance to man daily routine, and is essential to his existence and influence and thus he has sought for an improved system that would monitor the changes in health parameters irrespective of time and location and it provides the measures that will forestall abnormalities and cater for emergencies. This works in presents a system that is capable of providing an real time application in monitoring the heartbeat with improvements of an alarm and SMS alert. It is designed in such way that the heartbeat/pulse rate is sensed and measured by the sensor which sense the signals to the control unit for proper processing and determination of the heartbeat rate which is displayed on a LCD, it then proceeds to alert by an alarm and SMS send to the mobile phone of the medical expert or health personnel , if and only the threshold value of the heartbeat rate is maximally exceeded.This system proposes continuous, real time, remote, safe and accurate monitoring of the heartbeat rate.

References

  1. J. Qi, P. Yang, M. Hanneghan, S. Tang, Multiple density maps information fusion for effectively assessing intensity pattern of lifelogging physical activity, Neurocomputing 220 (2017) 199–209.
  2. Wang Q, Markopoulos P, Yu B, et al. Interactive wearable systems for upper body rehabilitation: a systematic review[J]. Journal of Neuroengineering & Rehabilitation, 2017, 14(1):20. Wang Q, Chen W, Timmermans A A A, et al. Smart Rehabilitation Garment for posture monitoring[J]. 2015, 2015:5736-5739.
  3. Zou C, Qin Y, Sun C, et al. Motion artifact removal based on periodical property for ECG monitoring with wearable systems[J]. Pervasive & Mobile Computing, 2017, 40.
  4. Elhayatmy G, Dey N, Ashour A S. Internet of Things Based Wireless Body Area Network in Healthcare[M]// Internet of Things and Big Data Analytics toward Next Generation Intelligence. 2018.
  5. Abawajy J H, Hassan M M. Federated Internet of Things and Cloud Computing Pervasive Patient Health Monitoring System[J]. IEEE Communications Magazine, 2017, 55(1):48-53.
  6. Hemant G, Subhas M, Xiang G, et al. WSN- and IoT-Based Smart Homes and Their Extension to Smart Buildings[J]. Sensors, 2015, 15(5):10350.
  7. Qi J, Yang P, Hanneghan M, et al. Ellipse fitting model for improving the effectiveness of life-logging physical activity measures in an Internet of Things environment[J]. Iet Networks, 2016, 5(5):107-113.
  8. Qi J, Yang P, Min G, et al. Advanced internet of things for personalised healthcare system: A survey[J]. Pervasive & Mobile Computing, 2017, 41.
  9. Yuenyong S, Nishihara A, Kongprawechnon W, et al. A framework for automatic heart sound analysis without segmentation[J]. Biomedical Engineering Online, 2011, 10(1):13.
  10. Dao A T. Wireless laptop-based phonocardiograph and diagnosis[J]. 2015, 3(3):e1178.
  11. Perez-Guzmán R E, García-Bermúdez R, Rojas-Ruiz F, et al. Evaluation of Algorithms for Automatic Classification of Heart Sound Signals[C]// International Conference on Bioinformatics and Biomedical Engineering. Springer, Cham, 2017:536-545.
  12. Leng S, Tan R S, Chai K T, et al. The electronic stethoscope[J]. Biomedical Engineering Online, 2015, 14:66.
  13. Tosi D, Olivero M, Perrone G. Low-cost fibre Bragg grating vibroacoustic sensor for voice and heartbeat detection[J]. Applied Optics, 2008, 47(28):5123.
  14. Hu Y, Xu Y. An ultra-sensitive wearable accelerometer for continuous heart and lung sound monitoring[C]// Engineering in Medicine & Biology Society. Conf Proc IEEE Eng Med Biol Soc, 2012:694.
  15. Rajala S, Lekkala J. Film-Type Sensor Materials PVDF and EMFi in Measurement of Cardiorespiratory Signals— A Review[J]. IEEE Sensors Journal, 2012, 12(3):439-446.
  16. Zhang G, Liu M, Guo N, et al. Design of the MEMS Piezoresistive Electronic Heart Sound Sensor:[J]. Sensors, 2016, 16(11):1728.
  17. Zhao Z, Zhao Z, Chen Y. Time-frequency analysis of heart sound based on HHT [Hilbert-Huang transform][C]// International Conference on Communications, Circuits and Systems, 2005. Proceedings. IEEE, 2005:929.
  18. Hung T H, Chou C C, Fang W C, et al. Time-frequency analysis of heart sound signals based on Hilbert-Huang Transformation[C]// IEEE, International Symposium on Consumer Electronics. IEEE, 2012:1-3.
  19. Ahmed M, El M, Nabih H, et al. Improving the Recognition of Heart Murmur[J]. 2016, 7(7).

IInternational Journal of Scientific Research in Computer Science, Engineering and Information Technology

Downloads

Published

2019-04-30

Issue

Volume 5, Issue 2, March-April-2019

Section

Research Articles

License

Copyright (c) IJSRCSEIT

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

[1]
Karthik R., Ruban Paul Issac D., Saravanan S., Vijay V. , " Heartbeat Monitoring and Alert System Using GSM Technology , IInternational Journal of Scientific Research in Computer Science, Engineering and Information Technology(IJSRCSEIT), ISSN : 2456-3307, Volume 5, Issue 2, pp.80-87, March-April-2019. Available at doi : https://doi.org/10.32628/CSEIT195230