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Outline

Survey on Wireless Body Area Network for Healthcare Applications

2016

https://doi.org/10.29369/IJRBAT.2016.04.III.0002

Abstract

This paper presents the survey/review on various aspects of WBAN technologies that are being used in healthcare applications. Wireless Body Area Network (WBAN) is the network of sensors worn on the body, used to describe a network of devices connected to wireless communication system. In particular, we have inspected monitoring and sensing, system architectures and applications of Wireless Body Area Network for healthcare system. We conclude by discussions on open research issues, their potential solutions and future trends useful for applications in healthcare system. WBAN opens up a whole new field of sensor networking and intelligent technology for healthcare applications but the problem lies in varying specifications and operating platforms.

References (14)

  1. S. M . Ghatole, K. Y. Rokde, S. S. Shende, P. B. Dahikar, "Healthcare System with interactive
  2. Biosensors" International Journal of Electronics, Communication & Soft Computing Science and Engineering, Volume 1, Issue 1, June 2015.
  3. K. Y. Rokde, S. M . Ghatole, S. S. Shende, P. B. Dahikar, "An Embedded System for Patient Heartbeat Monitoring" International Journal of Electronics, Communication & Soft Computing Science and Engineering, Volume 1, Issue 1, June 2015 .
  4. M ark A. Hanson, Harry C. Powell Jr., Adam T. Barth, Kyle Ring genberg, Benton H. Calhoun, James H. Aylor, and John Lach, Body Area Sensor Networks: Challenges and Opportunities, University of Virginia , IEEE Computer Society2009
  5. S. M . Ghatole, K. Y. Rokde, S. S. Shende, P. B. Dahikar, "Role of Wireless Body Area Network inRemote Healthcare Monitoring" International Journal of Researches in Biosciences, Agriculture and Technology (IJRBAT), Vol. II, Issue (7), Nov 2015: ISSN 2347 -517X, 154-157.
  6. B. H. Yang and S. Rhee, "Development of the ring sensor for healthcare automation," Robotics and Autonomous Systems, vol. 30, pp. 273-281, 2000.
  7. T. R F. Fulford-Jones, et al., "A Portable, Low- Power, Wireless Two-Lead EKG System," in 26th Annual Interna tional Conference of the IEEE EMBS San Francisco, CA, USA, 2004, pp. 2141-2144.
  8. K. Kario, et al. (2003) Ambulatory Blood Pressure Monitoring for Cardiovascular Medicine. IEEE Engineering in Medicine and Biology Magazine.81-88.
  9. C. C. Y. Porn, et al., "M-Health: The Development of Cuff-less and Wearable Blood Pressure Meters for Use in Body Sensor Networks," in Proceedings of IEEE/NLM Le Science Systems and Applications Workshop, 2006.
  10. C. Shnayder, et al., "Sensor Networks for Medical Care," Technical Report TR-08-05, Division of Engineering and Applied Sciences, Harvard University, 2005.
  11. F. Farshchi, et al., "A Tiny OS-Based Wireless Neural Interface," in Proceedings of the 26th Annual International Conference of the IEEE EMBS, 2004.
  12. M . Ghovanloo, et al., "A BiCMOS Wireless Interface Chip for Micro machined Stimulating Microprobes," in Proceedings of IEEE-EMBS Special Topic Conference on crotechnologies in Medicine and Biology, 2002, pp. 277-282.
  13. Ming Li And W enjing Lou, Data Security And Privacy In Wireless Body Area Networks, Worcester Polytechnic Institute KuiRen, Illinois Institute Of Technology, IEEE Wireless Communications • February 2010.
  14. S. M . Ghatole, K. Y. Rokde, P. B. Dahikar, Zig Bee:A Wireless Communication Network Kamla Nehru Journal of Science & Technology (KNJST) Vol.-1 ISBN:978-93-81432-97-6, 62-66.