A Framework for Cooperative In-Band Sensing in Cognitive Radio Network

2010 Fifth IEEE Workshop on Networking Technologies for Software Defined Radio Networks (SDR) Pub Date : 2010-06-21 DOI:10.1109/SDR.2010.5507922

Ramzi R. Saifan, Yawen Wei, Y. Guan

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引用次数: 3

Abstract

Many existing in-band sensing algorithms for CRNs adopted a periodic sensing/transmission architecture, where all the CR users do periodic sensing. Each periodic detection cycle is divided into two parts: sensing and transmission times. Sensing times are affected by many factors. In some worse scenarios (e.g., low SNRs), it may take more than half of the channel idle time for sensing. In this paper, we propose a new cooperative in-band sensing framework to increase sensing efficiency and robustness. In our framework, each CR operates in one of the two modes: Transmission and Sensing. The CRs that have data to send switch to Transmission Mode, provided that there is enough number of CR nodes in sensing mode. Therefore, CRs in transmission mode do not have to do any sensing during transmission, which imply that they can send for longer times. CRs in sensing mode send warning messages in case they detected the presence of PU. This cooperation (among CRs) is done on the same channel of transmission without the need for a CCC. Simulation and analytical results show that our sensing framework outperforms traditional sensing framework/approaches that require periodic sensing. At the end, we identify a set of important open problems to be addressed under this sensing framework.

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认知无线网络中协同带内感知框架

现有的crn带内感知算法大多采用周期感知/传输架构，所有crn用户都进行周期感知。每个周期检测周期分为传感次数和传输次数两部分。感应时间受多种因素影响。在一些更糟糕的情况下(例如，低信噪比)，它可能需要超过一半的信道空闲时间来检测。为了提高传感效率和鲁棒性，本文提出了一种新的带内协同传感框架。在我们的框架中，每个CR以两种模式之一运行:传输和感知。如果有足够数量的CR节点处于感知模式，则有数据要发送的CR切换到传输模式。因此，在传输模式下的cr在传输过程中不需要做任何传感，这意味着它们可以发送更长的时间。处于感应模式的cr在检测到PU存在的情况下会发送警告信息。这种(cr之间的)合作是在同一传输通道上完成的，不需要CCC。仿真和分析结果表明，我们的传感框架优于需要周期性传感的传统传感框架/方法。最后，我们确定了在此传感框架下需要解决的一系列重要开放问题。

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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来源期刊

2010 Fifth IEEE Workshop on Networking Technologies for Software Defined Radio Networks (SDR)

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