A perfectly stable contention access scheme for wireless access networks

IEEE 54th Vehicular Technology Conference. VTC Fall 2001. Proceedings (Cat. No.01CH37211) Pub Date : 2001-10-07 DOI:10.1109/VTC.2001.957127

M. Yuang, B. C. Lo, Ju-Ya Chen

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引用次数: 1

Abstract

Existing TDM-based contention access schemes exhibit the unstable or load-susceptible problem in which throughput exponentially deteriorates as the traffic offered load increases or fluctuates. In this paper, we propose a persistently stable, efficient hexanary-feedback-based contention access (HFCA) scheme, aiming to provide QoS guarantee while retaining stable and maximal network throughput. Unlike existing schemes that consider all contending mobile terminals as a whole, HFCA incrementally resolves a small group of terminals each time via a two-phase selection/resolution process. The incremental resolution repeats until the minimum non-blocking probability (QoS for signaling traffic) is satisfied. To accelerate resolution within the process, the number of simultaneously transmitting terminals is estimated based on an envelope-pdf-based estimator (EPER), by matching the corresponding normalized envelope histogram of the receiving signal with the priori envelope-pdf library. Facilitated with incremental resolution and the EPER, HFCA achieves the highest maximum throughput (0.574) and saturated throughput (0.52) reported to date irrespective of traffic increase and variation.

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一种完全稳定的无线接入网争用接入方案

现有的基于tdm的争用访问方案表现出不稳定或负载敏感的问题，其中吞吐量随着提供负载的流量增加或波动呈指数级下降。本文提出了一种持续稳定、高效的基于六进制反馈的竞争接入(HFCA)方案，旨在提供QoS保证的同时保持稳定和最大的网络吞吐量。与将所有竞争的移动终端作为一个整体考虑的现有方案不同，HFCA每次通过两个阶段的选择/解决过程逐步解决一小组终端。增量解析重复进行，直到满足最小非阻塞概率(信令流量的QoS)。为了加快过程中的分辨率，通过将接收信号的相应归一化包络直方图与先验包络pdf库进行匹配，基于基于包络pdf的估计器(EPER)估计同时发送的终端数量。在增量分辨率和EPER的促进下，HFCA实现了迄今为止报道的最高最大吞吐量(0.574)和饱和吞吐量(0.52)，而不考虑流量的增加和变化。

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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IEEE 54th Vehicular Technology Conference. VTC Fall 2001. Proceedings (Cat. No.01CH37211)

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