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International Journal of Wireless and Microwave Technologies(IJWMT)

ISSN: 2076-1449 (Print), ISSN: 2076-9539 (Online)

Published By: MECS Press

IJWMT Vol.5, No.5, Sep. 2015

A Novel RTS/CTS based Relative Time Synchronization Technique for RFID based Wireless Sensor Network

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Author(s)

Gursimran Kaura, Geetanjali Babbar

Index Terms

Wireless Sensor Network;Radio Frequency Identification;Clustering;Cluster Head;Relative Time Synchronization

Abstract

Wireless Sensor Network (WSN) is a self-configuring and highly flexible distributed network used for real time monitoring and is comprised of a number of wireless, minute, battery-operated independent sensor nodes connected to a common sink. Due to energy considerations, the network is generally divided into clusters and the entire communication is carried out through the cluster heads. The clock mismatch between various nodes and clusters often leads to collisions, delay and data loss. In order to overcome this problem, a novel RTS/CTS based Relative Time Synchronization Protocol is being proposed for Radio-Frequency Identification based WSN. It achieves better performance due to its energy efficiency and lower service messages. Simulation results show a substantial improvement in the net throughput and reliability of the network when compared with the GPS-based Synchronization technique.

Cite This Paper

Gursimran Kaura, Geetanjali Babbar,"A Novel RTS/CTS based Relative Time Synchronization Technique for RFID based Wireless Sensor Network", IJWMT, vol.5, no.5, pp.35-46, 2015.DOI: 10.5815/ijwmt.2015.05.04

Reference

[1]Akyildiz I.F., W. Su, Sankarasubramaniam Y., Cayirci E., "Wireless sensor networks: A survey", Computer. Netw.2002, 38, 393–422. 

[2]Al-Karaki J.N.; Kamal A.E., "Routing techniques in Wireless Sensor Networks: A survey", IEEE Wirel. Commun. 2004, 6–28. 

[3]Sundararaman Bharath, Buy Ugo, and Kshemkalyani A.D., "Clock Synchronization for Wireless Sensor Networks: A Survey", University of Illinois, pp. 1-49, 2005. 

[4]Ahmes J. et. at., "RFID-WSN Integrated Architecture for Energy and Delay-Aware Routing", SpringerBriefs in applied Sciences and Technology, 978-981-287-414-6_1.

[5]Chiesa M. et al, "RFID: A Week Long Survey on theTechnology and Its Potential," Technical Report on Hamessing Technology Project, March 2002.

[6]Vaidya N., and Das S.R., "RFID-Based Networks – Exploiting Diversity and Redundancy," Technical Report: June 2006.

[7]Bashir Ali Kashif, Park Myong-Soon, et.al, "In-network RFID Data Filtering Scheme in RFID-WSN for RFID Applications", National Fusion Research center, Korea. 

[8]Najera Pablo, Roman Rodrigo and Lopez Javier, "Secure Architecture for the Integration of RFID and Sensors in Personal Networks", University of Malaga, Spain.2012.

[9]Maraiya Kiran, Kant Kamal and Gupta Nitin, "Efficient Cluster Head Selection Scheme for DataAggregation in Wireless Sensor Network", International Journal of Computer Applications (0975 – 8887), Volume 23– No.9, June 2011.

[10]Forero.P. A., Alfonso Cano, and Giannakis Georgios B., "Distributed Clustering Using Wireless Sensor Networks", IEEE Journal of selected topics in Signal Processing, Vol. 5, no. 4, august 2011 707.

[11]Zhang and Damianos Gavalas,"RFID and Sensor Networks", AU7777_C012, Page 323 2009-6-24.

[12]Yaghmaee Mohammad Hossein and Mahmoud Naghibzadeh, "A Local Cluster Head Election Algorithm inWireless Sensor Networks", 978-1-61284-207-3/11, 2011 IEEE.

[13]Anker Tal, Bickson D., Bracha Hod and Dolev Danny, "Efficient Clustering for Improving Network Performance in Wireless Sensor Networks", The Hebrew University of Jerusalem, Israel.

[14]Kim Dong-Hyun, Kim Jong-Deok and Lee Chae-Seok "An Energy Efficient Active RFID Protocol to Avoid Overhearing Problem", IEEE, vol.14, no.1, pp 15-24, Jan.2014.

[15]Jiang, L., Bing Fang, & Li. (May, 2013) Energy optimized approach based on clustering routing protocol for wireless sensor networks. CCD Conference. IEEE.

[16]Gouvy, N., Hamouda, E., Mitton, N., & Zorbas, D. (2013, April). Energy efficient multi-flow routing in mobile Sensor Networks. In Wireless Communications and Networking Conference (WCNC), 2013 IEEE (pp. 1968-1973). IEEE.

[17]Zhang, D., Li, G., Zheng, K., Ming, X., & Pan, Z. H. (2014). An Energy-Balanced Routing Method Based on Forward-Aware Factor for Wireless Sensor Networks. Industrial Informatics, IEEE Transactions on, 10(1), 766-773.

[18]B. Liskov, "Practical Uses of Synchronized Clocks in Distributed Systems", Proc. Tenth Annual ACM Symposium on Principles of Distributed Computing, pp. 1–9, Aug. 1991.