Sensing period considerations in fading environment for multimedia delivery in cognitive Ultra Wideband system

2009 IEEE International Conference on Signal and Image Processing Applications Pub Date : 2009-12-01 DOI:10.1109/ICSIPA.2009.5478712

R. Rashid, N. Aripin, N. Fisal, S. Yusof

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引用次数: 12

Abstract

Spectrum scarcity and the inefficiency in its usage have necessitates the use of Cognitive Radio (CR) technology to exploit the existing wireless spectrum opportunistically. Spectrum sensing is a critical component of CR as it is a fundamental requirement that a cognitive user (CU) continuously senses the channel before accessing it to avoid causing interference to the primary user (PU) and other radio systems. Due to its low transmit power, detection of PU in a fading environment for an Ultra Wideband (UWB) system is a key problem. This paper presents preliminary works in determining the appropriate sensing period for the cognitive UWB that support multimedia delivery. Firstly, the proposed cross-layer design for multimedia transmission is presented. Next, simulations of bit-error-rate (BER), packet-error-rate (PER) and job-failure-rate (JFR) were carried out to determine the optimal signal-to-ratio (SNR) range to meet the Quality-of-Service (QoS) requirement set for video application. Lastly, the performance of probability of detection against SNR is studied to estimate the appropriate time slot allocation for sensing scheduling.

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认知超宽带系统中多媒体传输衰落环境下的感知周期考虑

频谱的稀缺性和低效率使得认知无线电(CR)技术成为利用现有无线频谱的必要条件。频谱感知是CR的关键组成部分，因为它是认知用户(CU)在访问信道之前持续感知信道以避免对主用户(PU)和其他无线电系统造成干扰的基本要求。由于PU的发射功率低，在衰落环境下对其进行检测是超宽带(UWB)系统的关键问题。本文介绍了为支持多媒体传输的认知超宽带确定适当感知周期的初步工作。首先，提出了多媒体传输的跨层设计方案。其次，对误码率(BER)、包错误率(PER)和作业失败率(JFR)进行了仿真，以确定满足视频应用服务质量(QoS)要求的最佳信噪比(SNR)范围。最后，研究了检测概率对信噪比的影响，以估计适合传感调度的时隙分配。

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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2009 IEEE International Conference on Signal and Image Processing Applications

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