A new cross-layer design strategy for TV White Space Cognitive Radio applications

2011 Third International Workshop on Cross Layer Design Pub Date : 2011-11-01 DOI:10.1109/IWCLD.2011.6123084

James H. Martin, L. Dooley, K. Wong

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引用次数: 5

Abstract

Conventional single layer processing in Cognitive Radio Networks (CRN) can incur significant time costs in transferring information between the various layers of the Open System Interconnection (OSI) model, due its innate sequential structure. This is especially a problem for CRN which usually only has a narrow time window to access spectral gaps of either licensed or other secondary users (SU). To exploit this opportunity, cross layer processing (CLP) paradigms that share information between OSI layers and the radio system have been proposed to maximise throughput for SU, while maintaining Quality of Service (QoS) provision to the licensed primary user. With the global transference of TV systems to digital platforms, regulatory bodies have identified an opportunity to allocate additional digital TV (DTV) channels to CRNs on a localised basis, in what is called TV White Space (TVWS). This paper investigates how CLP of information can be effectively exploited to enhance CRN system performance by making key channel allocations to minimise disruption to the spectrum environment, while maximising available resources to fulfil application and network requirements within TVWS.

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一种新的电视空白空间认知无线电跨层设计策略

由于认知无线网络(CRN)固有的顺序结构，其传统的单层处理在开放系统互连(OSI)模型的各层之间传递信息时，会产生大量的时间开销。这对于CRN来说尤其是个问题，因为它通常只有很窄的时间窗口来访问许可用户或其他辅助用户(SU)的频谱间隙。为了利用这一机会，提出了在OSI层和无线电系统之间共享信息的跨层处理(CLP)范式，以最大限度地提高SU的吞吐量，同时保持向许可的主用户提供服务质量(QoS)。随着全球电视系统向数码平台转移，规管机构发现有机会在本地基础上，将额外的数码电视频道(DTV)分配给crn，即所谓的电视空白空间(TVWS)。本文探讨了如何有效地利用CLP信息来提高CRN系统的性能，通过分配关键信道来尽量减少对频谱环境的干扰，同时最大限度地利用可用资源来满足TVWS内的应用和网络需求。

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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2011 Third International Workshop on Cross Layer Design

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