Title :
Modeling channel assignment of small-scale cellular networks
Author :
Hung, Hui-Nien ; Lee, Pei-Chun ; Lin, Yi-Bing ; Peng, Nan-Fu
Author_Institution :
Inst. of Stat., Nat. Chiao Tung Univ., Hsinchu, Taiwan
fDate :
3/1/2005 12:00:00 AM
Abstract :
In a cellular telecommunications network, the call blocking, forced termination, and call incompletion probabilities are major output measures of system performance. Most previous analytic studies assumed that the handover traffic to a cell is a fixed-rate Poisson process. Such assumption may cause significant inaccuracy in modeling. This paper shows that the handover traffic to a cell depends on the workloads of the neighboring cells. Based on this observation, we derive the exact equation for the handover force-termination probability when the mobile station (MS) cell residence times are exponentially distributed. Then, we propose an approximate model with general MS cell residence time distributions. The results are compared with a previously proposed model. Our comparison study indicates that the new model can capture the handover behavior much better than the old one for small-scale cellular networks.
Keywords :
cellular radio; channel allocation; exponential distribution; probability; stochastic processes; telecommunication traffic; call blocking; call incompletion probability; cellular telecommunications network; fixed-rate Poisson process; handover force-termination probability; handover traffic; mobile station cell residence; modeling channel assignment; small-scale cellular network; Cellular networks; Cellular phones; Force measurement; Land mobile radio cellular systems; Merging; Poisson equations; System performance; Telecommunication traffic; Telephony; Traffic control; Call duration time; cellular network; channel assignment; handover;
Journal_Title :
Wireless Communications, IEEE Transactions on
DOI :
10.1109/TWC.2004.842946
