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Wireless Sensor Networks: The Potential Use of Received Signal Strength in Power Transmission Control for the MICA2

Lim, J.C., and Wong, K.D., (2006) Wireless Sensor Networks: The Potential Use of Received Signal Strength in Power Transmission Control for the MICA2. Engineering e-Transaction, 1 (2). pp. 9-13. ISSN 1823-6379

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Official URL: http://ejum.fsktm.um.edu.my/ArticleInformation.aspx?ArticleID=401

Affiliations

Malaysia University of Science and Technology

Abstract

Power transmission plays an important role in prolonging the lifetime of a node. Thus in designing efficient wireless sensor networks protocols it important to take this into account. This paper will help the reader understand the role of both power transmission and received signal strength. Besides that these paper also present results obtained from study which was concerning the relationship distance and power transmission has on received signal strength of a mica2 mote. The paper will gear readers towards the use of power transmission control in new communication protocols for the MICA2.

Item Type:Journal
Additional Information:The Author is Senior Member, IEEE
Keywords:Wireless Sensor Network, Motes.
Subjects:T Technology
ID Code:514

[1] B. Warneke, et al., “An Autonomous 16mm3 Solar-Powered Node for Distributed Wireless Sensor Networks,” to be presented at IEEE Sensors 2002, Orlando, FL, June, 2002.

[2] J. Thelan, D. Goense and K. Langendoen. Radio Wave Propagation in Patato Fields. 1st workshop on Wireless Network Measurements (co-located with WiOpt 2005), Riva del Garda, Italy, April 2005

[3] D. Ganesan, B. Krishnamachari, A. Woo, D. Culler, D. Estrin, and S. Wicker. Complex behavior at scale: An experimental study of low-power wireless sensor networks. Technical Report UCLA CSD-TR 02-0013, Center for Embedded Networked Sensing, University of California, Los Angeles and Intel Research Lab, University of California, Berkeley, February 2002.

[4] C. Alippi and G. Vanini. Wireless sensor networks and radio localization: a metrological analysis of the mica2 received signal strength indicator, in Proceedings of the first IEEE Workshop on Embedded Networked Sensors, 2004.

[5] Ganesan, D., Estrin, D., Woo, A., and Culler, D.: ‘Complex Behavior at Scale: An Experimental Study of Low-Power Wireless Sensor Networks’ Technical Report UCLA/CSD-TR 02-0013, Center for Embedded Networked Sensing, University of California, Berkeley, February 2002.

[6] J. D. Parsons, The Mobile Radio Propagation Channel. John Wiley & Sons, 2000.

[7] R. Vaughan and J. B. Andersen, Channels, Propagation and Antennas for Mobile Communications. IEEE, 2003.

[8] M. Kubisch, H. Karl, A. Wolisz, L. Zhong and J. Rabaey. , in: Proc. of the IEEE Wireless Communications and Networking Conference (WCNC 2003), New Orleans, LA (March 2003) pp. 558–563.

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