Load balancing algorithm in heterogeneous wireless networks for smart distribution grid

被引：0

作者：

Tang, Liangrui ^{[1
]}

Chen, Yuanyuan ^{[1
]}

机构：

[1] State Key Laboratory of Alternate Electrical Power System with Renewable Energy Sources, North China Electric Power University, Beijing 102206, Changping District

来源：

Zhongguo Dianji Gongcheng Xuebao/Proceedings of the Chinese Society of Electrical Engineering | 2014年 / 34卷 / 10期

关键词：

Entropy weight method; Heterogeneous wireless networks; Load balancing; Matter-element analysis; Smart distribution grid (SDG);

D O I：

10.13334/j.0258-8013.pcsee.2014.10.019

中图分类号：

学科分类号：

摘要：

To improve the quality of service (QoS) of communication services in smart distribution grid (SDG), a heterogeneous network model in the access layer of SDG was presented, and the priorities of communication services in SDG were divided by their different QoS requirements. Accordingly, a load balancing algorithm based on the matter-element analysis in heterogeneous wireless networks was proposed. The matter-element model to be evaluated was constructed and the evaluation index weight was obtained combining with using entropy weight method, and the correlation degrees of candidate networks about different grades were calculated. The maximum correlation degree of each network about different grades was selected to describe the network quality. In accordance with the priorities which are ranged from high to low, new communication services in SDG were accessed to the network with the optimal quality in turn, therefore the services with different priorities were differently served. Simulation results show that the algorithm can effectively balance the loads among the overall heterogeneous system, and simultaneously can decrease the service blocking probability. Consequently, the proposed algorithm can provide reliable, economical and efficient communication service for various services in SDG. © 2014 Chin. Soc. for Elec. Eng.

引用

页码：1667 / 1674

页数：7

共 23 条

[1] Lin Y., Zhong J., Wu F., Discussion on smart grid supporting technologies, Power System Technology, 33, 12, pp. 8-14, (2009)
[2] Chen S., Song S., Li L., Et al., Survey on smart grid technology, Power System Technology, 33, 8, pp. 1-7, (2009)
[3] Huang S., Analysis on the demand for communication services in smart distribution network and communication technical scheme, Telecommunications for Electric Power System, 31, 212, pp. 10-17, (2010)
[4] Sun F., Hu X., Wu R., Research on multi-medium communication mechanism implementing strategy for power distribution and utilization network, Modern Electric Power, 29, 1, pp. 47-51, (2012)
[5] Zhang Z., Li X., Cheng S., Structures, functions and implementation of united information system for smart grid, Proceeding of the CSEE, 30, 34, pp. 1-7, (2010)
[6] Lu Y., Liu D., Liu J., Et al., Information integration demand and model analysis for smart distribution grid, Automation of Electric Power Systems, 34, 8, pp. 1-4, (2010)
[7] Sheng J., Tang L., Hao J., Research of ambient composite networks towards the smart distribution grid, Power System Protection and Control, 39, 24, pp. 127-131, (2011)
[8] Tang L., Sheng J., Qi B., Et al., Dynamic load balancing in heterogeneous integrated communication networks oriented to smart distribution grid, Proceeding of the CSEE, 33, 1, pp. 39-49, (2013)
[9] Ci T., Wu Y., The competitiveness analysis of the power enterprises based on the entropy matter-element model, Advances in Information Sciences and Service Sciences (AISS), 4, 12, pp. 71-80, (2012)
[10] Hu T., Jing Z., Zhang Q., Heterogeneous network selection algorithm based on extension theory and fuzzy analytic hierarchy process, Journal of Computer Applications, 31, 9, pp. 2336-2339, (2011)

← 1 2 3 →