ATM网络中基于流量测量的速率包络允许控制

Proceedings IEEE International Conference on Networks 2000 (ICON 2000). Networking Trends and Challenges in the New Millennium Pub Date : 2000-09-05 DOI:10.1109/ICON.2000.875793

F. Zhao, M. Hanawa, M. Takahara

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引用次数: 4

摘要

本文提出了一种基于流量测量的ATM网络最小包络率(MER)分配机制。速率包络技术简化了高突发源的带宽分配，大大提高了网络资源的利用率。在该方法中，我们利用带滑动时间窗的交通观测值来测量MER和平均到达率，然后构建一个峰值率和平均率等于实测MER和实测平均率的虚拟源。从虚拟源中，我们可以得到带宽分配和准入控制所需的所有参数。本文提出的基于最小包络率技术的允许控制方法得到了各种计算机仿真的验证。我们证明了最小包络率技术可以应用于实时接纳控制。结果表明，该方案对高突发源具有较高的效率。

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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Traffic measurement-based admission control using rate envelope in ATM networks

This paper reports a traffic measurement-based bandwidth allocation mechanism using the minimum envelope rate (MER) technique in ATM networks. The rate envelope technique simplifies the bandwidth allocation for higher bursty sources and can improve substantially the utilization of network resources. In the proposed approach, we measure the MER and the average arrival rate using traffic observations with a slide time window, and then a virtual source of which the peak rate and average rate are equal to the measured MER and the measured average rate is composed. From the virtual source, we can get all of required parameters for bandwidth allocation and admission control. The proposed admission control approach based on the minimum envelope rate technique is confirmed by various computer simulations. We demonstrate that the minimum envelope rate technique can be applied to the real time admission control. Consequently, it becomes clear that the proposed scheme shows high efficiency for higher bursty sources.

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Proceedings IEEE International Conference on Networks 2000 (ICON 2000). Networking Trends and Challenges in the New Millennium

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