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Multi-Stack Architecture Implementation to Enhance the QoS in WSN with Prioritization of Packets

by Panimozhi K, G. Mahadevan
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International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Volume 120 - Number 23
Year of Publication: 2015
Authors: Panimozhi K, G. Mahadevan
10.5120/21452-4214

Panimozhi K, G. Mahadevan . Multi-Stack Architecture Implementation to Enhance the QoS in WSN with Prioritization of Packets. International Journal of Computer Applications. 120, 23 ( June 2015), 51-56. DOI=10.5120/21452-4214

@article{ 10.5120/21452-4214,
author = { Panimozhi K, G. Mahadevan },
title = { Multi-Stack Architecture Implementation to Enhance the QoS in WSN with Prioritization of Packets },
journal = { International Journal of Computer Applications },
issue_date = { June 2015 },
volume = { 120 },
number = { 23 },
month = { June },
year = { 2015 },
issn = { 0975-8887 },
pages = { 51-56 },
numpages = {9},
url = { https://ijcaonline.org/archives/volume120/number23/21452-4214/ },
doi = { 10.5120/21452-4214 },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Journal Article
%1 2024-02-06T23:07:01.989535+05:30
%A Panimozhi K
%A G. Mahadevan
%T Multi-Stack Architecture Implementation to Enhance the QoS in WSN with Prioritization of Packets
%J International Journal of Computer Applications
%@ 0975-8887
%V 120
%N 23
%P 51-56
%D 2015
%I Foundation of Computer Science (FCS), NY, USA
Abstract

The main aspect in Wireless Sensor Network is to improve the overall performance of the network, to reduce the battery usage, and also to enrich all QoS by using some protocols. Now a it is seen that a single network that is deployed have to handle numerous with varied QoS requirements applications. These aspects can be achieved by using multi-stack architecture which works with various several combinations of MAC & NWK protocols. The combinations of MAC & NWK protocols are adapted in multi-stack mechanism by dividing time into time intervals. At each time interval each combination of the protocols are activated. Simulations mitigated QoS among the combinations of protocols. The queue exchange algorithm used allows frames from one time interval of the node that is to be sent during another time interval at same node is proposed. This eases the complexity of time intervals dimensioning and also improves the overall performance of the network.

References
  1. M. Petrova, J. Riihijarvi, P. Mahonen, and S. Labella, “Performance study of IEEE 802.15.4 using measurements and simulations,” in IEEE WCNC, 2006, pp. 487–492.
  2. T. O. Kim, H. Kim, J. Lee, J. S. Park, and B. D. Choi, “Performance analysis of IEEE 802.15.4 with non-beacon-enabled CSMA/CA in nonsaturated condition,” in Embedded and Ubiquitous Computing, ser. LNCS, vol. 4096, 2006, pp. 884–893.
  3. P. Baronti, P. Pillai, V. W. C. Chook, S. Chessa, A. Gotta, and Y. Fun Hu, “Wireless sensor networks: A survey on the state of the art and the 802.15.4 and ZigBee standards,” Computer communications, vol. 30, pp. 1655–1695, 2007.
  4. IEEE 802.15, “Part 15.4: Wireless medium access control (MAC) and physical layer (PHY) specifications for low-rate wireless personal area networks (WPANs),” ANSI/IEEE, Standard 802.15.4 R2006, 2006.
  5. ZigBee, “ZigBee Specification,” ZigBee Standards Organization, Standard ZigBee 053474r17, January 2008.
  6. T. Kim, D. Kim, N. Park, S.-E. Yoo, and T. S. L´opez, “Shortcut tree routing in ZigBee networks,” in ISWPC, 2007.
  7. J. Elson, L. Girod, and D. Estrin, “Fine-grained network time synchronization using reference broadcasts,” in Operating Systems Design and Implementation, vol. 36, 2002, pp. 147–163.
  8. S. Ganeriwal, R. Kumar, and M. B. Sribastava, “Timing-sync protocol for sensor networks,” in ACM Embedded Networked Sensor Systems, 2003, pp. 138–149.
  9. G. Chalhoub, A. Guitton, and M. Misson, “MAC specifications for a WPAN allowing both energy saving and guaranted delay - Part A: MaCARI: a synchronized tree-based MAC protocol,” in IFIP WSAN, 2008.
  10. C. Perkins, E. Belding-Royer, and S. Das, “Ad hoc on-demand distance vector (AODV) routing,” IETF, Request For Comments 3561, July 2003.
  11. El Rachkidy, N., Guitton, A., and Misson, M. Improving qos in wireless sensor networks using a multi-stack architecture. In IEEE Vehicular Technology Conference (2011).
  12. Petr Jurcík, Anis Koubâa, Mário Alves, Eduardo Tovar, Zdenek Hanzále, “A Simulation Model for the IEEE 802.15.4 Protocol: Delay/Throughput Evaluation of the GTS Mechanism”, 15th International Symposium on Modeling, Analysis, and Simulation of Computer and Telecommunication Systems, 2007. MASCOTS ‘07, 24-26 Oct. 2007, page(s): 109 - 116, Istanbul, ISSN: 1526-7539, Print ISBN: 978-1-4244-1853-4.
  13. Feng Chen Talanis, T. German, R. Dressler, F. “Real-time enabled IEEE 802.15.4 sensor networks in industrial automation” , IEEE International Symposium Industrial Embedded Systems, 2009. SIES '09. ISBN: 978-1-42444109-9, INSPEC Accession Number: 1081428
  14. Collotta M., Salerno V. M. “A real-time network based on IEEE 802.15.4 / ZigBee to control home automation environment”, International forum “Modern Information Society Formation – problems, perspectives, innovation approaches”. St.-Petersburg, Russia, June 6–11, 2010
  15. Patrick R. Casey, Kemal E. Tepe, and Narayan Kar, “ Design and Implementation of a Testbed for IEEE 802.15.4 (Zigbee) Performance Measurements”, Research Article, EURASIP Journal onWireless Communications and Networking, Volume 2010, Article ID 103406, 11 pages, doi:10.1155/2010/103406, Hindawi Publishing Corporation.
  16. Feng Chen, Nan Wang, Reinhard German and Falko Dressler, “Simulation study of IEEE 802.15.4 LR-WPAN for industrial applications”, Wirel. Commun. Mob. Computer. 10: 609–621 (2010) Published online in Wiley InterScience (www.interscience.wiley.com) DOI: 10.1002/wcm.736
  17. D Rohm, M Goyal, N Dua, H Hosseini, K Vairavan, “Smart Parking Lots of the Future”, Symposium (RTAS) 2007: Workshop on Smart Transportation, April 3, 2007, Bellevue.
  18. Mario Collotta, Valerio Mario Salerno, “A REAL-TIME NETWORK BASED ON IEEE 802.15.4/ZIGBEE TO CONTROL HOME AUTOMATION ENVIRONMENT”, ISA European paper competition - Modern Information society formation - Problems Perspectives, innovation Approaches, ISBN/ISSN: ISBN 978-5-8088-0528-6 - 6-11 June 2010.
  19. Ricardo Severino, Manish Batsa, Mário Alves, Anis Koubâa, “A Traffic Differentiation Add-On to the IEEE 802.15.4 Protocol: implementation and experimental validation over a real-time operating system”, 13th Euromicro Conference on Digital System Design, Architectures, Methods and Tools, DSD 2010, 1-3 September 2010, Lille, France. IEEE 2010, ISBN 978-0-7695-4171-6.
  20. IEEE-TG15.4, "Part 15.4: Wireless Medium Access Control (MAC) and Physical Layer (PHY) Specifications for Low-Rate Wireless Personal Area Networks (LR-WPANs)," IEEE standard for Information Technology, 2003.
  21. Zigbee-Alliance, "ZigBee specification" ttp://www.zigbee.org/, 2005.
  22. J. Zheng and J. L. Myung, "Will IEEE 802.15.4 Make Ubiquitous Networking a Reality?-- A Discussion on a Potential Low Power, Low Bit Rate Standard," IEEE CommunicationsMagazine, vol. 42, No. 6, pp. 140-146, 2004.
  23. D. Geer, "Users Make a Beeline for ZigBee Technology," IEEE Computer Society Press, vol. 38, Issue 12, pp. 16-19, Dec., 2005.
  24. J. Adams, "Building low power into wireless sensor networks using ZigBee technology," Industrial Embedded Systems Resource Guide, Networking: Technology, pp. 26-30, 2005.
  25. T. Culter, "Deploying ZigBee in existing industrial automation networks," Industrial Embedded System Resource Guide, Networking: Technology, pp. 34-36, 2005.
  26. C. Herzog, "Creating value with ZigBee Networks," Industrial Embedded System Resource Guide, Networking: Technology, pp. 31-33, 2005.
  27. ZigBee, “ZigBee Specification,” ZigBee Standards Organization, Standard Zigbee 053474r17, January 2008.
  28. F. Cuomo, S. Della Luna, U. Monaco, and F. Melodia, “Routing in ZigBee: Benefits from exploiting the IEEE 802.15.4 association tree,” in IEEE International Conference on Communications (ICC), 2007, pp. 3271–3276.
Index Terms

Computer Science
Information Sciences

Keywords

Sensor Networks Multi-stack architecture Priority Queuing

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