Dimensioning aggregated voice traffic in MPLS nodes

2008 International Conference on Optical Network Design and Modeling Pub Date : 2008-03-12 DOI:10.1109/ONDM.2008.4578394

A. Estepa, R. Estepa, I. Campos, A. Delgado

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引用次数: 4

Abstract

MPLS offers a efficient transport scheme and traffic engineering capabilities for real-time VoIP. However, at the transport plane, the bandwidth reserved for voice traffic is a key parameter necessary to ensure performance guarantees for VoIP communications. This paper addresses this important piece of traffic engineering: determining the bandwidth requirements for voice traffic aggregated. To achieve our goal we first define a model for a generic voice source which embodies any current type of voice source (which we name Generalized VoIP source). Then, we extend the fluid model with our new GVoIP source to obtain a loss and delay prediction for each multiplexer node. Finally, we design a simple but efficient dimensioning algorithm that provides the bandwidth requirement for a desired performance when multiplexing a number of homogeneous GVoIP sources. Using of dimensioning algorithm we compare the bandwidth requirements for two transport schemes VoIP over MPLS and VoMPLS. Results confirm that our extended multiplexing analytical model improves the estimation of the bandwidth requirement of a voice traffic trunk over MPLS, whereas any other on-off based dimensioning model is not valid for these kind of codecs.

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对MPLS节点的聚合语音流量进行量纲化

MPLS为实时VoIP提供了高效的传输方案和流量工程能力。而在传输层，话音流量预留的带宽是保证VoIP通信性能的关键参数。本文讨论了流量工程的一个重要部分:确定话音流量聚合的带宽需求。为了实现我们的目标，我们首先为通用语音源定义一个模型，该模型包含任何当前类型的语音源(我们称之为通用VoIP源)。然后，我们用新的GVoIP源扩展了流体模型，得到了每个多路复用器节点的损失和延迟预测。最后，我们设计了一种简单而有效的量纲化算法，该算法在复用多个同质GVoIP源时提供了所需性能的带宽需求。利用量纲化算法比较了VoIP over MPLS和VoMPLS两种传输方案的带宽需求。结果证实，我们的扩展复用分析模型提高了对MPLS语音业务中继带宽需求的估计，而任何其他基于开-关的维度模型都不适用于这类编解码器。

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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2008 International Conference on Optical Network Design and Modeling

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