移动蜂窝网络中具有最大信道借用策略的紧凑模式

Proceedings of PIMRC '96 - 7th International Symposium on Personal, Indoor, and Mobile Communications Pub Date : 1996-10-15 DOI:10.1109/PIMRC.1996.567410

L. Ortigoza-Guerrero, D. Lara-Rodríguez

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引用次数: 8

摘要

提出了一种新的动态信道分配策略——最大化信道借用紧凑模式(CPMCB)。这种新的DCA算法利用紧凑的模式来降低阻塞概率，总是将信道分配给提高系统性能的模式。通道借用和通道重新分配策略也被用于最小化系统中每个单元的阻塞概率。在非均匀流量情况下，在阻塞率为2%的情况下，该策略比定向信道锁定(BDCL)方案的流量承载能力提高8%，在非均匀流量的大负载情况下，该策略的性能优于基于CP的DCA。这不会像后一种策略那样违反干扰约束。通道重新分配的最大数量最多为一个，因此这是优于BDCL的另一个优势。同时，采用了一种新的具有真实交通条件的干扰限制环境。最后给出了在AMPS和IS-54标准下的测试结果，验证了CPMCB具有更好的性能。

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A compact pattern with maximized channel borrowing strategy for mobile cellular networks

The compact pattern with maximized channel borrowing (CPMCB), a new dynamic channel assignment strategy (DCA), is proposed. This new DCA algorithm takes advantage of the compact patterns to decrease the blocking probability by always assigning a channel to a pattern that improves the system performance. Channel borrowing and channel reallocation strategies are also used to minimize the blocking probability of each cell of the system. In the case of nonuniform traffic the new strategy is shown to have an 8% more traffic carrying capacity than the borrowing with directional channel locking (BDCL) scheme at a blocking rate of 2%, and better performance than CP based DCA under heavy loads of nonuniform traffic. This without violating the interference constraints as the latter strategy does. The maximum number of channel reallocations is at most one, being this therefore another advantage over BDCL. Also, a new interference limited environment with real traffic conditions is used. Results for this scenario with the standards AMPS and IS-54 are included, which validate the better performance of CPMCB as well.

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

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