On the use of sounding in wideband channels

2006 International Zurich Seminar on Communications Pub Date : 2006-02-21 DOI:10.1109/IZS.2006.1649107

Sheng Jing, Lizhong Zheng, M. Médard

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引用次数: 1

Abstract

In wideband channels, the energy per degree of freedom does not suffice to provide an accurate measurement of the channel over the entire spectrum. However, in the presence of feedback, we may garner information at the sender about some aspects of the channel quality over certain portion of the spectrum. In this paper, we investigate a scheme to capture the effect of such information. We consider channel sounding with a finite amount of energy over a block-fading channel in both time and frequency. The quality of each subchannel is assessed as being the cross-over probability in a BSC. In order to characterize a judicious policy for allocating energy to different subchannels in view of establishing their usefulness for transmission, we use a multi-armed bandit approach. This approach provides us with a cohesive framework to consider the relative costs and benefits of allotting energy for sounding versus transmission, and for repeated sounding of a single channel versus sounding of different channels. In particular, we are able to give a characterization of the number of subchannels that should be probed for capacity maximization in terms of the available transmission energy, the available bandwidth and the fading characteristics of the channel

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关于在宽带信道中探测的使用

在宽带信道中，每自由度的能量不足以在整个频谱上提供信道的精确测量。然而，在反馈存在的情况下，我们可以从发送方获得关于频谱的某些部分的信道质量的某些方面的信息。在本文中，我们研究了一种捕捉这些信息影响的方案。我们考虑在时间和频率上在块衰落信道上具有有限能量的信道测深。每个子信道的质量被评估为BSC中的交叉概率。为了描述一种明智的策略，将能量分配给不同的子信道，以确定它们对传输的有用性，我们使用了多臂强盗方法。这种方法为我们提供了一个有凝聚力的框架，以考虑为探测与传输分配能量的相对成本和收益，以及单一通道的重复探测与不同通道的探测。特别是，我们能够根据可用传输能量、可用带宽和信道的衰落特性给出应探测的子信道数量的特征，以实现容量最大化

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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2006 International Zurich Seminar on Communications

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