Downlink throughput analysis in a WCDMA network with mixed QoS traffic classes

The 5th International Symposium on Wireless Personal Multimedia Communications Pub Date : 2002-12-16 DOI:10.1109/WPMC.2002.1088137

C. Dou, Yu-Hua Chang, Shenghui Yan

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引用次数: 3

Abstract

In UMTS, four traffic classes have been identified: conversational, streaming, interactive, and background, to fulfill the QoS requests from the application or the user. To effectively manage the radio resources, shared between these different QoS classes has become an important network planning issue. In this paper, the maximum available resource, R/sub max/, of a cell (per sector per carrier) is defined in terms of the maximum downlink transmission power, the average propagation loss, the orthogonality factor, and the other-to-own-cell interference ratio. The resource sharing factor of each traffic class can be calculated by dividing the total resource allocated for that class by the maximum available resource, R/sub max/. The summation of the resource sharing factors of all traffic classes is smaller than one. This paper also shows that the average throughput of the downlink is a weighted sum of the resource sharing factors. Downlink throughput calculations for various traffic conditions with mixed QoS classes are presented by using the derived weighted sum equation.

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混合QoS流量分类下WCDMA网络的下行吞吐量分析

在UMTS中，已经确定了四种流量类别:会话、流、交互和后台，以满足来自应用程序或用户的QoS请求。为了有效地管理无线资源，在这些不同的QoS类之间进行共享已成为一个重要的网络规划问题。本文根据最大下行传输功率、平均传播损耗、正交性因子和对方对自己小区的干扰比来定义小区(每个扇区每个载波)的最大可用资源R/sub max/。每个流量类的资源共享系数可以用该流量类分配的总资源除以最大可用资源R/sub max/来计算。所有流类的资源共享因子之和小于1。本文还表明，下行链路的平均吞吐量是资源共享因素的加权和。利用导出的加权和方程，给出了混合QoS类别下各种流量条件下的下行吞吐量计算。

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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The 5th International Symposium on Wireless Personal Multimedia Communications

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