An integrated space/terrestrial cellular architecture with different priority schemes for global mobile communications

Proceedings of the Nineteenth National Radio Science Conference Pub Date : 2002-11-07 DOI:10.1109/NRSC.2002.1022641

S. E. El Dolil, A. Nofal, W. Al-Hanafy

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Abstract

A multiple hierarchical cellular structure is proposed to handle the teletraffic load resulting from different user densities. In the lowest hierarchical level, microcells serve the highest teletraffic density, while overlaying macrocells serve both calls from areas that are difficult to be covered by microcells, as well as overflow traffic from microcells. At the highest hierarchical level, nongeostationary satellites focus their spotbeams to serve satellite-only users sparsely distributed and act as teletraffic relief for the terrestrial segment. At each hierarchical level different priority schemes are used to privilege handoff requests. A reserved channel scheme (RCS) is applied in the microcell layer, both RCS and a sub-rating scheme (SRS) are used in the macrocell layer, while in the spotbeam cell layer, RCS, SRS, and a queuing priority scheme (QPS) are implemented. An analytical teletraffic model is developed to evaluate the proposed architecture. Numerical results are presented and discussed for the new call blocking, handoff failure, forced termination and noncompletion probabilities.

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具有不同优先级方案的综合空间/地面蜂窝结构，用于全球移动通信

提出了一种多层次元胞结构来处理不同用户密度引起的通信负荷。在最低层次上，微蜂窝提供最高的通信密度，而覆盖的大蜂窝既提供来自难以被微蜂窝覆盖的地区的呼叫，也提供来自微蜂窝的溢出通信。在最高层次上，非地球静止卫星聚焦其射光，为分布稀疏的纯卫星用户提供服务，并作为地面段的远程通信救济。在每个层次级别上，使用不同的优先级方案来授予切换请求特权。微蜂窝层采用保留信道方案(RCS)，宏蜂窝层采用保留信道方案(RCS)和子分级方案(SRS)， spotbeam蜂窝层采用保留信道方案(RCS)、保留信道方案(SRS)和排队优先方案(QPS)。建立了一个分析式通信模型来评估所提出的体系结构。给出并讨论了新的呼叫阻塞、切换失败、强制终止和不完成概率的数值结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the Nineteenth National Radio Science Conference

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