使用基于通道借用的动态通道分配的优先级切换策略

Proceedings of PIMRC '96 - 7th International Symposium on Personal, Indoor, and Mobile Communications Pub Date : 1996-10-15 DOI:10.1109/PIMRC.1996.568480

K. Yeung, T. Yum, M. Choy

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引用次数: 2

摘要

由于从用户的角度来看，由于切换失败而导致的呼叫终止比阻塞新呼叫要糟糕得多，因此优先级切换方案是必不可少的。特别是对于移动小区边界跨越率高的微蜂窝系统。因此，有效的DCA应该优先考虑切换呼叫。基于一种称为BDCL(带方向通道锁定的借用)的DCA，提出了两种优先切换的DCA策略:(i)带BDCL的FCA用于切换调用，(ii)带通道保留的BDCL。使用BDCL进行切换呼叫的FCA允许切换呼叫在呼叫到达单元中没有可用的空闲标称信道时使用BDCL策略借用信道。在具有通道保留的BDCL中，新调用和切换调用都可以使用借用的通道。但是，一个小区中保留了固定数量的标称通道，以专用于切换呼叫。为了研究这两种策略的绩效，本文采用了一种被广泛接受的流动性模型。基于该模型，我们从给定的平均移动速度推导出切换呼叫到达率和信道保持时间。通过仿真研究了这两种算法的性能，发现它们在不影响新呼叫性能的情况下，非常有效地降低了切换呼叫阻塞概率。

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Prioritized handoff strategies using channel borrowing-based dynamic channel assignment

Since call termination as a result of handoff failure is considerably less desirable from the user's viewpoint than the blocking of a new call, a prioritized handoff scheme is essential. Especially for microcellular systems where the mobile cell boundary crossing rate is high. Therefore an efficient DCA should give priority to handoff calls. Two DCA strategies for prioritized handoff are proposed based on a DCA called BDCL (borrowing with directional channel locking): (i) FCA with BDCL for handoff calls, and (ii) BDCL with channel reservation. FCA with BDCL for handoff calls allows a handoff call to borrow a channel using BDCL strategy if no free nominal channel in the call arrival cell is available. In BDCL with channel reservation, both the new call and handoff call can use a borrowed channel. But a fixed number of nominal channels in a cell are reserved for exclusive use of handoff calls. To study the performance of the two proposed strategies, a widely accepted mobility model is adopted. Based on this model, we derive the handoff call arrival rates and channel holding time from the given mean mobile speed. The performance of the two proposed algorithms is studied by simulations and we found that they are very effective in reducing the handoff call blocking probability while not affecting the new call performance.

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来源期刊

Proceedings of PIMRC '96 - 7th International Symposium on Personal, Indoor, and Mobile Communications

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