A signaling load and radio resource utilization balancing scheme for 3G cellular networks

This paper proposes an optimal scheme to balance the trade-off between signaling load and radio resource utilization in UMTS networks. To efficiently use limited radio resource, 3GPP introduces RRC state transition mechanism in UMTS. This mechanism uses a timer called TDCH to determine when mobile phone should release its connection to network. To examine the impact of such a timer on radio resource utilization and signaling load, which is seldom considered in previous literature, this paper proposes a system model to calculate RRC connection numbers, traffic channel utilization and control channel blockage rate of a cellular network based on different network configurations and traffic models. Moreover, an optimization goal is formulated to describe the trade-off between signaling load and radio resource utilization ratio. Based on convex optimization, an iterative algorithm is constructed to solve this problem. Numerical results show the availability of the model.

[1]  Andreas Mitschele-Thiel,et al.  Static RRC Timeouts for Various Traffic Scenarios , 2007, 2007 IEEE 18th International Symposium on Personal, Indoor and Mobile Radio Communications.

[2]  Patrick P. C. Lee,et al.  On the Detection of Signaling DoS Attacks on 3G Wireless Networks , 2007, IEEE INFOCOM 2007 - 26th IEEE International Conference on Computer Communications.

[3]  Feng Qian,et al.  TOP: Tail Optimization Protocol For Cellular Radio Resource Allocation , 2010, The 18th IEEE International Conference on Network Protocols.

[4]  Andreas Mitschele-Thiel,et al.  UMTS data capacity improvements employing dynamic RRC timeouts , 2005, 2005 IEEE 16th International Symposium on Personal, Indoor and Mobile Radio Communications.

[5]  Jul-Hung Yeh,et al.  Impact of inactivity timer on energy consumption in WCDMA and cdma2000 , 2004, 2004 Symposium on Wireless Telecommunications.