Open Access Journal

ISSN : 2394-2320 (Online)

International Journal of Engineering Research in Computer Science and Engineering (IJERCSE)

Monthly Journal for Computer Science and Engineering

Open Access Journal

International Journal of Engineering Research in Computer Science and Engineering (IJERCSE)

Monthly Journal for Computer Science and Engineering

ISSN : 2394-2320 (Online)

Effect of Looping On the Lifetime Of A Multi-Sink Wireless Sensor Network Deployed For Healthcare Monitoring System

Author : Mahima Mehta 1 Kaushik Ghosh 2

Date of Publication :7th April 2016

Abstract: This paper considers the application of Wireless Sensor Networks in healthcare monitoring systems. The KPS protocol with and without looping in Wireless Sensor Networks is also discussed. The KPS protocol is used for efficient delivery of messages of interest in the form of packets generated from different source nodes to multiple sink nodes within different geographic target regions. In the KPS protocol, forwarding potential is used along with the concept of Fermat point. This paper will focus on the lifetime of a Wireless Sensor Networks in healthcare monitoring systems. The lifetime of the network is considered in terms of the number of rounds, wherein each round is described by the complete transmission of the packet from the source node to the multiple sink nodes.

Reference :

    1. Young-Mi Song, Sung-Hee Lee, and Young-Bae Ko, “FERMA: An Efficient Geocasting Protocol for Wireless Sensor Netwroks with Multiple Target Regions”, Embedded and Ubiquitous ComputingEUC2005 Workshops. Springler Berlin Heidelberg, 2005.
    2. The Fermat point and generalizations. [Online]:http://www.cut-theknot.org/generalization/fermat_point.shtml
    3. Dan Pedoe, “Geometry, a comprehensive course”, Dover Publications,1988.
    4. Alemdar, Hande, and Cem Ersoy. "Wireless sensor networks for healthcare: A survey." Computer Networks 54.15 (2010): 2688-2710.
    5. C. Gabriel, X. Huagang, G.A.O. Qiang, G. Esteban, R. Ricardo, E. Jose, A perspective of state-of-the-art wireless technologies for e-health applications, in: IEEE International Symposium on IT in Medicine Education, 2009.
    6. Kaushik Ghosh, Pradip K. Das, and Sarmishtha Neogy, “Effect of Source Selection, Deployment Pattern, and Data Forwarding Technique on Lifetime of Data Aggregating Multi-sink Wireless Sensor Network”, Applied Computation and Security Systems, vol.1
    7. Mahima Mehta, Kaushik Ghosh, “Validation of Global Minima Scheme in Wireless Sensor Networks”, IJERT, Volume 4, Issue 09.
    8. Ko, J., Lu, C., Srivastava, M. B., Stankovic, J. A., Terzis, A., & Welsh, M. (2010). Wireless sensor networks for healthcare. Proceedings of the IEEE, 98(11), 1947-1960.
    9. Ghosh, Kaushik, Pradip K. Das, and Sarmistha Neogy. "KPS: A Fermat Point Based Energy Efficient Data Aggregating Routing Protocol for Multi-sink Wireless Sensor Networks." Advanced Computing and Systems for Security. Springer India, 2016. 203-221.
    10. Heinzelman, Wendi Rabiner, Anantha Chandrakasan, and Hari Balakrishnan. "Energyefficient communication protocol for wireless microsensor networks." System sciences, 2000. Proceedings of the 33rd annual Hawaii international conference on. IEEE, 2000.
    11. Goyal, Deepak, and Malay Ranjan Tripathy. "Routing protocols in wireless sensor networks: a survey." Advanced Computing & Communication Technologies (ACCT), 2012 Second International Conference on. IEEE, 2012.
    12. Kaushik Ghosh, Sarbani Roy, and Pradip K. Das, “An Alternative Approach to Find the Fermat Point of a Polygonal Geographic Region for Energy Efficient Geocast Routing Protocols: Global Minima Scheme,”In Networks and Communications, 2009. NETCOM’09. First International Conference on (pp.332-337). IEEE
    13. S.H. Lee and Y.B. Ko. “Geometry-driven Scheme for Geocast Routing in Mobile Adhoc Networks”, IEEE, vol.2,06/ 2006.
    14. W.B. Heinzelman, A.P. Chandrakasan and H. Balakrishnana, “ An application-specific protocol architecture for wireless micro sensor networks”,IEEE Transactions on Wireless Communications, Vol.1, Issue4,October2002.

    1. Young-Mi Song, Sung-Hee Lee, and Young-Bae Ko, “FERMA: An Efficient Geocasting Protocol for Wireless Sensor Netwroks with Multiple Target Regions”, Embedded and Ubiquitous ComputingEUC2005 Workshops. Springler Berlin Heidelberg, 2005.
    2. The Fermat point and generalizations. [Online]:http://www.cut-theknot.org/generalization/fermat_point.shtml
    3. Dan Pedoe, “Geometry, a comprehensive course”, Dover Publications,1988.
    4. Alemdar, Hande, and Cem Ersoy. "Wireless sensor networks for healthcare: A survey." Computer Networks 54.15 (2010): 2688-2710.
    5. C. Gabriel, X. Huagang, G.A.O. Qiang, G. Esteban, R. Ricardo, E. Jose, A perspective of state-of-the-art wireless technologies for e-health applications, in: IEEE International Symposium on IT in Medicine Education, 2009.
    6. Kaushik Ghosh, Pradip K. Das, and Sarmishtha Neogy, “Effect of Source Selection, Deployment Pattern, and Data Forwarding Technique on Lifetime of Data Aggregating Multi-sink Wireless Sensor Network”, Applied Computation and Security Systems, vol.1
    7. Mahima Mehta, Kaushik Ghosh, “Validation of Global Minima Scheme in Wireless Sensor Networks”, IJERT, Volume 4, Issue 09.
    8. Ko, J., Lu, C., Srivastava, M. B., Stankovic, J. A., Terzis, A., & Welsh, M. (2010). Wireless sensor networks for healthcare. Proceedings of the IEEE, 98(11), 1947-1960.
    9. Ghosh, Kaushik, Pradip K. Das, and Sarmistha Neogy. "KPS: A Fermat Point Based Energy Efficient Data Aggregating Routing Protocol for Multi-sink Wireless Sensor Networks." Advanced Computing and Systems for Security. Springer India, 2016. 203-221.
    10. Heinzelman, Wendi Rabiner, Anantha Chandrakasan, and Hari Balakrishnan. "Energyefficient communication protocol for wireless microsensor networks." System sciences, 2000. Proceedings of the 33rd annual Hawaii international conference on. IEEE, 2000.
    11. Goyal, Deepak, and Malay Ranjan Tripathy. "Routing protocols in wireless sensor networks: a survey." Advanced Computing & Communication Technologies (ACCT), 2012 Second International Conference on. IEEE, 2012.
    12. Kaushik Ghosh, Sarbani Roy, and Pradip K. Das, “An Alternative Approach to Find the Fermat Point of a Polygonal Geographic Region for Energy Efficient Geocast Routing Protocols: Global Minima Scheme,”In Networks and Communications, 2009. NETCOM’09. First International Conference on (pp.332-337). IEEE
    13. S.H. Lee and Y.B. Ko. “Geometry-driven Scheme for Geocast Routing in Mobile Adhoc Networks”, IEEE, vol.2,06/ 2006.
    14. W.B. Heinzelman, A.P. Chandrakasan and H. Balakrishnana, “ An application-specific protocol architecture for wireless micro sensor networks”,IEEE Transactions on Wireless Communications, Vol.1, Issue4,October2002.

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