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 JPEE  Vol.3 No.8 , August 2015
Power Line Monitoring Data Transmission Using Wireless Sensor Network
Abstract: The WSN used in power line monitoring is long chain structure, and the bottleneck near the Sink node is more obvious. In view of this, A Sink nodes’ cooperation mechanism is presented. The Sink nodes from different WSNs are adjacently deployed. Adopting multimode and spatial multiplexing network technology, the network is constructed into multi-mode-level to achieve different levels of data streaming. The network loads are shunted and the network resources are rationally utilized. Through the multi-sink nodes cooperation, the bottlenecks at the Sink node and its near several jump nodes are solved and process the competition of communication between nodes by channel adjustment. Finally, the paper analyzed the method and provided simulation experiment results. Simulation results show that the method can solve the funnel effect of the sink node, and get a good QoS.
Cite this paper: Li, L. and Zhao, H. (2015) Power Line Monitoring Data Transmission Using Wireless Sensor Network. Journal of Power and Energy Engineering, 3, 83-88. doi: 10.4236/jpee.2015.38008.
References

[1]   Lu, J.-Z., Zhang, H.-X., Fang, Z. and Li, B. (2009) Result and Its Analysis of Ice Disaster Monitoring of Hunan Power System. Power System Protection and Control, 37, 99-105.

[2]   Huang, X.B., et al. (2008) Transmission Line On-Line Monitoring and Fault Diagnosis. China Electric Power Press, Beijing.

[3]   Lv, Z.-A. (2008) ZigBee Network Theory and Applications Development. Beihang University Press, Beijing.

[4]   Wang, Y.-G., Yin, X.-G., You, D.-H., et al. (2009) A Real-Time Monitoring and Warning System for Electric Power Facilities Icing Disaster Based on Wireless Sensor Network. Power System Technology, 33, 14-19.

[5]   Zhao, Z.-H., Shi, G.-T., Han, S.-L., et al. (2009) A Heterogeneous Wireless Sensor Network Based Remote District High-Voltage Transmission Line On-Line Monitoring System. Automation of Power System, 33, 80-84.

[6]   Hull, B., Jamieson, K. and Balakrishnan, H. (2014) Mitigating Congestion in Wireless Sensor Networks. Proceedings of the 2nd ACM Conference on Embedded Networked Sensor Systems (SenSys), Baltimore, Vol. 3, 556-664.

[7]   EI Gamal, H. (2013) On the Scaling Laws of Dense Wireless Sensor Networks. IEEE Transactions on Information Theory, April 2013, Submitted to Publication.

[8]   Guo, R.C., Xu, Z.Z. and Li, X.L. (2007) Typical Design of Transmission Lines with Voltage Grades from 110 kV to 500 kV and Its Application. Power System Technology, 31, 56-64.

[9]   Gopala, P.K. and EI Gamal, H. (2010) On the Scaling Laws of Multi-Modal Wireless Sensor Networks. Annual Joint Conferences of the IEEE Computer and Communication Societies (INFOCOM), Hong Kong, Vol. 6, 234-243.

[10]   Zheng, P., Zheng, G.S., Gong, Z.Y. and He, G.M. (2006) Research for Structure of Wireless Sensor Networks Based on Power Transmission Hallway. Engineering Journal of Wuhan University, 39, 115-118.

[11]   Zhang, C.-Q., Li, M.-L. and Wu, M.-Y. (2007) An Approach for Constructing Load-Balancing Networks for Data Gathering Wireless Sensor Networks. Journal of Software, 18, 1110-1121.
http://dx.doi.org/10.1360/jos181110

[12]   Mohamed, R., Fahmy, S. and Pandurangan, G. (2013) Latency-Sensitive Power Control for Wireless Ad Hoc Networks. In: Boukerche, A., Ed., Proc. of the MS-WiM 2005, ACM Press, Montreal, 31-38.

[13]   Wang, J.-M. (2009) Energy Level Selection for Wireless Sensor Network with Variable Transmit Power. Computer Engineering, 35, 108-110.

[14]   Li, F.M., Xu, W.J. and Liu, X.H. (2008) Power Control for Wireless Sensor Networks. Journal of Software, 19, 716-732. (In Chinese)
http://dx.doi.org/10.3724/SP.J.1001.2008.00716

 
 
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