Abstract
Hierarchical Cellular Networks (HCN) offer more efficient channel utilization and better quality of service (QoS) under the high tele-traffic condition compared to the single-tier system. One of the important measures of QoS in HCN as in any single-tier system is the handoff dropping rate. Although the existing approaches such as guard channel and queuing can reduce forced termination probability, they also result in higher new call blocking probability. The channel sub-rating strategy has found to be an effective technique to reduce the handoff force termination probability while preserving the new call blocking probability in a single-tier system. In this paper, we propose a new call admission control scheme for HCN based on the channel sub-rating. Analytic models based on 1-D Markov process in microcell and 2-D Markov process in macrocell are developed. Experimental results show that our scheme achieves lower blocking and forced termination probabilities compared to the traditional guard channel scheme. The effect of channel sub-rating on the voice quality degradation is also studied. Results demonstrate that we can establish a good balance between the forced termination probability and the voice quality degradation by varying the number of sub-ratable full-rate channels.
Highlights
Cellular networks has experienced a rapid growth of the number of subscribers during the past decades, which places high demands on the system capacity [1,2,3,4]
We present the experimental results generated from the model developed in Section 3 where all the full-rate channels are considered to be sub-ratable
A call admission control scheme for Hierarchical Cellular Networks (HCN) has been proposed in this paper which incorporates the channel sub-rating and one-way call overflow
Summary
Cellular networks has experienced a rapid growth of the number of subscribers during the past decades, which places high demands on the system capacity [1,2,3,4]. Chung and Lee [11] proposed a mobility-dependent call admission control scheme that new calls are accepted according to some mobility-based acceptance probability while handoff calls are admitted when there are free channel available. These existing schemes can effectively reduce the handoff call forced termination probability, but at the cost of the increment of new call blocking probability. By using the channel sub-rating, it is shown that the forced termination probability is greatly reduced with a slight increase of the blocking probability of new calls.
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