论文信息 - Handoff ordering using signal prediction priority queuing in personal communications systems

Handoff ordering using signal prediction priority queuing in personal communications systems

Handoffs in a mobile cellular communications environment will become an increasingly important issue as cell sizes shrink to accommodate an increasingly large demand for services. A new handoff ordering method is proposed which can be used to provide rapid handovers with a smaller percentage of dropped calls than other methods. Signal prediction priority queuing (SPPQ) is a generic queuing method which can be adapted to almost any handover technique for the benefit of decreased dropped calls. In a typical personal communications system (PCS) environment, it is shown that for realistic call blocking probabilities (2-6%), SPPQ leads to about 15% fewer dropped calls compared to first in first out (FIFO) queuing. This benefit comes at the expense of a slight increase (<1%) in blocked call percentage. The proposed SPPQ scheme is also compared to a method called the measurement based priority scheme (MBPS) and, based on worst case scenarios, it is shown to outperform MBPS as well.

O. K. Tonguz | H. G. Ebersman

[1] William C. Y. Lee,et al. Mobile Cellular Telecommunications Systems , 1989 .

[2] M. Frullone,et al. Comparison of different hand-over strategies for high capacity cellular mobile radio systems , 1989, IEEE 39th Vehicular Technology Conference.

[3] S.T.S. Chia. Improving the handover performance for mixed cell system , 1992 .

[4] W. Lee,et al. On the Estimation of the Second-Order Statistics of Log Normal Fading in Mobile Radio Environment , 1974, IEEE Trans. Commun..

[5] E. A. Frech,et al. Cellular models and hand-off criteria , 1989, IEEE 39th Vehicular Technology Conference.

[6] Yi-Bing Lin,et al. Queueing priority channel assignment strategies for PCS hand-off and initial access , 1994 .

[7] N. Amitay,et al. Resource auction multiple access (rama) : efficient method for fast resource assignment in decentralised wireless PCS , 1992 .

[8] Bijan Jabbari,et al. A Measurement-Based Prioritization Scheme for Handovers in Mobile Cellular Networks , 1992, IEEE J. Sel. Areas Commun..

[9] R.A. Guerin,et al. Channel occupancy time distribution in a cellular radio system , 1987, IEEE Transactions on Vehicular Technology.

[10] Stephen S. Rappaport,et al. Traffic model and performance analysis for cellular mobile radio telephone systems with prioritized and nonprioritized handoff procedures , 1986, IEEE Transactions on Vehicular Technology.