Wireless Sensor


EOI: 10.11242/viva-tech.01.05.001

Download Full Text here



Citation

Ms. Mukeshkumar Mishra, Ms. Anojkumar Yadav, "Wireless Sensor", VIVA-IJRI Volume 1, Issue 5, Article 1, pp. 1-5, 2022. Published by Computer Engineering Department, VIVA Institute of Technology, Virar, India.

Abstract

These are kindred to wi-fi ad HOC networks inside the sense that they depend on wireless connectivity and spontaneous formation of networks so that sensor information can be conveyed wirelessly. WSNs monitor physicals or atmospheical conditions, such as temperatures, sound, and pressure. Modern networks are bi-directional, both amassing data and enabling control of sensor activitys. The developments of these networks was incentiviizeda by military applications such as battlefield surveillance. Such networks are utilizing in industrial and consumer application, such as industrial process monitoring and controling and machine health monitored.

Keywords

temeratuer , pressure, wireless , motivated, health monitoring.

References

  1. A. R. Metke and R. L. Ekl, “Security technology for smart grid networks,” IEEE Transactions on Smart Grid, vol. 1, no. 1, pp.99–107, 2010.
  2. P. Sakarindr and N. Ansari, “Security services in group communications over wireless infrastructure mobile ad hoc, and wireless sensor networks,” IEEEWireless Communications, vol. 14, no. 5, pp. 8–20, 2007.
  3. D.Wei, Y. Lu, M. Jafari, P.M. Skare, and K. Rohde, “Protecting smart grid automation systems against cyberattacks,” IEEE Transactions on Smart Grid, vol. 2, no. 4, pp. 782–795, 2011.
  4. S. S. S. R. Depuru, L. Wang, and V. Devabhaktuni, “Smart meters for power grid: challenges, issues, advantages and status,” Renewable and Sustainable Energy Reviews, vol. 15, no. 6, pp. 2736–2742, 2011.
  5. U.S. NIST, “NIST framework and roadmap for smart grid interoperability standards, release 1. 0,” NIST Special Publication 1108, 2010, http://www.nist.gov/public affairs/releases/ upload/smartgrid interoperability final.pdf.
  6. A draft version of this publication by NIST, http://www.nist .gov/public affairs/releases/upload/smartgrid 092409 fr.pdf.
  7. G. Kalogridis, C. Efthymiou, S.Z. Denic, T. A. Lewis, and R. Cepeda, “Privacy for smart meters: towards undetectable appliance load signatures,” in Proceedings of the 1st IEEE International Conference on Smart Grid Communications, pp. 232– 237, Gaithersburg, Md, USA, October 2010.
  8. J. D. Howard and T. A. Longstaff, “A common language for computer security incidents,” Sandia National Laboratories, Sandia Representative, SAND98-8867, 1998.
  9. B. A. Akyol, H. Kirkham, S. L. Clements, and M. D. Hadley, “A survey of wireless communications for the electric power system,” U.S. Department of Energy, 2010.
  10. V. C. Gungor, B. Lu, and G. P. Hancke, “Opportunities and challenges of wireless sensor networks in smart grid,” IEEE Transactions on Industrial Electronics, vol. 57, no. 10, pp. 3557– 3564, 2010.
  11. V. C. Gungor and F. C. Lambert, “A survey on communication networks for electric systemautomation,” Computer Networks, vol. 50, no. 7, pp. 877–897, 2006.
  12. G. N. Ericsson, “Cyber security and power system communication— essential parts of a smart grid infrastructure,” IEEE
  13. EL- PRO-CUS “Wireless Sensor Networks : Types & Their Applications”