Price and customer satisfaction based access control scheme

被引：0

作者：

Zhang, Dengyin ^{[1
]}

Wang, Xuemei ^{[1
]}

Li, Dacheng ^{[1
]}

机构：

[1] Key Lab. of Broadband Wireless Communication and Sensor Network Technology, Nanjing University of Posts and Telecommunications

来源：

Journal of Computational Information Systems | 2014年 / 10卷 / 05期

关键词：

Access control; Access probability; Customer satisfaction; Price;

D O I：

10.12733/jcis9102

中图分类号：

学科分类号：

摘要：

To solve the fairness problem in user access of mobile communication systems, we proposed an access control scheme based on price and customer satisfaction (PSAC) in this paper. In the scheme, we borrow Cobb-Douglas ordinal utility model to designate a price function which changes with the current system load and service transmission rate, and evaluate customer satisfaction according to waiting time and allocated bandwidth. The system accepts requests in the descending order of these requests' access probability, the calculation of which depends on price and customer satisfaction. Simulation results show that the PSAC algorithm we proposed can achieve high resource utilization, enhance the overall revenue, and ensure the fairness of the user access. © 2014 Binary Information Press.

引用

页码：1893 / 1902

页数：9

共 15 条

[1] Liu Q., Li C., Framework and access technology for integration between WLAN and B3G, Proceedings of IET International Conference on Wireless Mobile and Multimedia Networks, pp. 396-399, (2006)
[2] Stuchmann P., Zimmermann R., Toward ubiquitous and unlimited-capacity communication network: European research in framework program, IEEE Communications Magazine, 45, 5, pp. 148-157, (2007)
[3] Wen M., Lei J., Li J., Efficient user access control mechanism for wireless multimedia sensor networks, Journal of Computational Information Systems, 7, 9, pp. 3325-3332, (2011)
[4] Shi W.X., Zhao J., Chi X.F., Et al., Fast dynamic channel allocation algorithm based on priority channel reservation, Journal on Communications, 30, 7, pp. 59-66, (2009)
[5] Li B., Wu C., Li D., An access strategy with combination of channel reservation and preemptive priority, Journal of China Institute of Communications, 21, 3, pp. 12-18, (2000)
[6] Venkata Krishna P., Misra S., Obaidat M.S., An efficient approach for distributed dynamic channel allocation with queues for real-time and non-real-time traffic in cellular networks, The Journal of Systems and Software, 82, 7, pp. 1112-1124, (2009)
[7] Bhattacharya S., Gupta H.M., Kar S., Traffic model and performance analysis of cellular mobile systems for general distributed handoff traffic and dynamic channel allocation, IEEE Transactions on Vehicular Technology, 57, 8, pp. 3629-3640, (2008)
[8] Zhang R., Ren J., Yang Y.-H., Zhou D.-F., Algorithm based on services-priority of bandwidth allocation, Journal of Information Engineering University, pp. 480-482, (2009)
[9] Badia L., Lindstrom M., Zander J., Zorzi M., An economic model for the radio resource management in multimedia wireless systems, Computer Communications, 27, 11, pp. 1056-1064, (2004)
[10] Stratogiannis D.G., Tsiropoulos G.I., Kanellopoulos J.D., Cottis P.G., Price bargaining integration with dynamic call admission control in wireless multiservice networks, ICUMT'09, pp. 1-6, (2009)

← 1 2 →