Optimized Communication of Group Mobility in WPAN

Full Text (PDF, 655KB), PP.10-18

Views: 0 Downloads: 0

Author(s)

Suman Lata 1,* Naveen Goel 1

1. Vaish College of Engineering, Rohtak, Haryana, India

* Corresponding author.

DOI: https://doi.org/10.5815/ijcnis.2016.03.02

Received: 15 May 2015 / Revised: 10 Nov. 2015 / Accepted: 2 Jan. 2016 / Published: 8 Mar. 2016

Index Terms

BS (base station), WPAN (wireless personal area network), LOS (Line of sight), NLOS (Non Line of Sight), APP (Application Layer), NWK (Network Layer), MAC ( Medium Access Control)

Abstract

ZigBee is a low cost, low-power consumption and long battery life network that is based on the IEEE 802.15.4 standard; which is most usually used to transfer low data rates information in the Wireless Personal Area Network (WPAN). In the Wireless Personal Area Network (WPAN) network, capability of sensor network and mobile network are combined that have energy limit and sensing range limits. Here a network is composed of a number of Sub-Network or groups with the selection of group leader. Group formation is defined under sensing range limit, density limit and type of nodes. The selection of group leader is defined under velocity analysis, energy and average distance after that inter group and intra group communication is performed and then Handoff mechanism is performed when nodes switch the group or group switch the base station.

Cite This Paper

Suman Lata, Naveen Goel, "Optimized Communication of Group Mobility in WPAN", International Journal of Computer Network and Information Security(IJCNIS), Vol.8, No.3, pp.10-18, 2016. DOI:10.5815/ijcnis.2016.03.02

Reference

[1]Patrick, Jae Sheung Shin, BharatMadan, Shashi Phoha, Thomas La Porta, “Efficient Group Mobility for Heterogeneous Sensor Networks”, DAAD19-01-1-0504 and NSF Grant CNS-0453830, DARPA and NSF.
[2]Falk-Moritz Schaefer, Tobias Grob and Rudiger Kays, "Energy Consumption of 6LoWPAN and ZigBee in Home Automation Networks", 978-1-4799-0543-0/13, 2013 IEEE.
[3]M. Barathi Kannamma, B. Chanthini, D. Manivannan, “Controlling and Monitoring Process in Industrial Automation using ZigBee", 978-1-4673-6217-7/13, 2013 IEEE.
[4]Adam Dahlstrom and Ramesh Rajagopalan, "Performance Analysis of. Routing Protocols in ZigBee Non- Beacon Enabled WSNs", Internet of Things: RFIDs, WSNs and beyond, 978-1-4673-3133-3/13, 2013 IEEE.
[5]Ching-Lung Lin, Yuan-Chuen Hwang, Hsueh-Hsien Chang, Ching-Feng Lin, "Power Measurement with Economic Management by Using ZigBee RF Technology", 10th International Conference on e-Business Engineering, 978-0-7695-5111-1/13, 2013 IEEE.
[6]Lei Zhou, Ying Zhu, Ai Chen, "A Simulation Platform for ZigBee-UMTS Hybrid Networks", IEEE communications letters, Vol. 17, No.2, 1089-7798/13, 2013 IEEE.
[7]Alexandru-Corneliu Olteanu, George-Daniel Oprina, Nicolae Tapus and Sven Zeisberg, "Enabling mobile devices for home automation using ZigBee", 19th International Conference on Control Systems and Computer Science, 978-0-7695-4980-4/13, 2013 IEEE.
[8]D. Nowak, "Integration of ZigBee and IEC 61850 networks for a substation automation system-Meeting time requirements under heavily loaded radio channel conditions", 4th IEEE PES Innovative Smart Grid Technologies Europe (ISGT Europe), 2013 IEEE.
[9]Suratsavadee K. Korkua and Kamon Thinsurat, "Design of ZigBee based WSN for Smart Demand Responsive Home Energy Management System", 13th International Symposium on Communications and Information Technologies (ISCIT), 978-1-4673-5580-3/13, 2013 IEEE.
[10]Jianyu Niu, Ruonan Zhang, Guangde Wang, Shuguang Li and Shuai Wan, “Design and Experimental Evaluation of Long-distance and High-Mobility ZigBee Transceivers for WSNs", the First IEEE ICCC International Workshop on Internet of Things, 978-1-4799-1403-6/13, 2013 IEEE.
[11]Hoi Yan Tung, "The Generic Design of a High-Traffic Advanced Metering Infrastructure Using ZigBee", IEEE transactions on industrial informatics, 1551-3203, 2013 IEEE.
[12]Mirko Franceschinis, Claudio Pastrone, Maurizio A. Spirito, Claudio Borean, "On the Performance of ZigBee Pro and ZigBee IP in IEEE 802.15.4 Networks", Sixth International Workshop on Selected Topics in Mobile and Wireless Computing, 978-1-4799-0428-0/13, 2013 IEEE.
[13]Meng-Shiuan Pan, Ping-Lin Liu, and Chien-Fu Cheng, "Convergecast in ZigBee Tree-Based Wireless Sensor Networks", IEEE Wireless Communications and Networking Conference (WCNC), 978-1-4673-5939-9/13, 2013 IEEE.
[14]Luca Secci and Chiara Buratti, "Reducing Traffic Congestion in ZigBee Networks: Experimental Results", 978-1-4673-2480-9/13, 2013 IEEE.
[15]Hua Qin and Wensheng Zhang, "ZigBee-Assisted Power Saving for More Efficient and Sustainable Ad Hoc Networks", IEEE transactions on wireless communications, 1536-1276/13, 2013.