认知无线电OFDM系统中无静默期带内感知方法

认知无线电中传统的带内感知技术需要通过静默期避免来自自身网络传输的干扰。该文提出了一种适用于OFDM系统的带内感知算法,借助相邻OFDM符号的互补特征实现能量检测。该算法不需要静默期,因此可以避免对网络性能的影响。文中对算法进行了性能分析,同时推广到多种应用方式中。仿真表明,该算法具有和基于静默期感知的能量检测算法相近的性能,能够满足IEEE802.22系统的感知要求。     

认知无线电频谱感知技术研究

认知无线电(CR)作为一种智能通信系统,能够充分了解周围的通信环境,实现频谱的动态利用。频谱感知被用作动态无线电访问的关键技术,并在近些年得到了广泛的研究及应用。文章介绍了三种不同的频谱感知技术:基于发射机的频谱检测、基于接收机的频谱检测和合作检测,并对三种检测技术的性能及优缺点进行了分析。     

认知无线电系统中频谱感知方法的研究

由于无线通信技术的飞速发展，因此无线资源频谱日趋紧张．而另一方面现有无线通信网络采用的固定频谱分配策略导致许多已分配的频段在大多数情况下未能被充分利用。认知无线电技术的出现为提高频谱利用率提供了一条新的思路．认知无线电的一个重要要求就是能够动态的感知并接入频段，这就需要人们能够感知出空闲频段。论文主要介绍了认知无线电系统中的频谱感知方法，并运用能量检测法对对OFDM信号进行了仿真分析．     

认知无线电最优线性协作宽带频谱感知

本文提出了基于最优线性协作的宽带频谱感知方案。通过次级用户之间的协作,为认知网络的频谱感知提供分集,利用融合中心融合多个次级用户的宽带频谱感知数据来获取最优权重,并生成全局判决统计量,最终使用全局阈值完成最后的检测判决。由于所提出的两种协作宽带感知方案或需要精确地估计授权用户的信号强度和噪声方差,或感知性能不足,因而,还提出一种更易实现的方案。理论分析和仿真结果表明,本文所提出的协作感知方案可以有效地提高频谱感知性能,并且性能优于传统等增益合并方案。      

最优线性认知无线电协作频谱感知技术研究

频谱感知是检测频谱空穴,实现动态频谱接入的前提和关键。单认知用户检测存在阴影效应和多径衰落等影响,检测效果较差。多用户协作频谱感知是目前频谱感知的主要手段。文中针对常用的协作频谱感知方法的不足,提出一种基于最优线性加权的协作频谱感知方法,对其检测模型与检测算法进行分析,并进行仿真。仿真结果表明,最优线性加权协作频谱感知在相同的条件下相比常用协作频谱感知具有更大的检测概率,更优良的检测性能。     

一种新的认知无线电频谱感知方法

认知无线电是一种用于提高无线电通信频谱利用率的新的智能技术。首先简述了认知无线电的背景和概念,然后针对认知无线电频谱感知的能力,对比分析了现有的三种频谱检测方法：匹配滤波器法、能量检查法和循环平稳特征检测法,在对其进行研究的基础上,提出一种将能量检测法和循环平稳特征检测法相结合的双门限检测法,通过仿真验证了该方法的有效性和优越性。     

认知无线电频谱感知技术综述

频谱感知作为认知无线电技术实现的前提条件,是目前无线电领域的一个研究热点。文章对频谱感知技术的研究进展进行了综述,重点总结和分析了几种典型的频谱感知模型,并在此基础上讨论了频谱感知下一步的研究方向。     

认知无线电中频谱感知技术

固定频谱分配政策导致频谱使用率低下,为克服这一缺点,人们提出使用认知无线电技术实现动态频谱接入,从而有效利用频谱空穴。频谱感知是认知无线电的关键技术。文中介绍了目前已提出的频谱感知技术:发射机检测(包括匹配滤波器检测、能量检测和周期平稳特征检测)、合作检测、接收机检测及基于干扰温度的检测,仿真分析了各种方法的优缺点及有待解决的问题。为满足多用户环境和实时性要求,仍需探讨新的频谱感知方法,提高检测性能。     

认知无线电的频谱感知技术探讨

频谱感知允许非许可用户伺机访问未用的许可频带资源,可以极大改善频谱利用率,并且具有较低的部署成本和较好的兼容性。文中首先介绍了认知无线电中频谱感知的相关概念。然后,详细探讨了频谱感知的基本技术手段和面临的挑战。最后,对频谱感知的设计问题进行了说明。     

认知无线电中频谱感知算法研究

本文利用随机矩阵最新研究成果,分析接收信号采样协方差矩阵的最大最小特征值的比值分布,求取更为精确的判决门限,并在感知过程中选择信任度高的部分用户进行协作。     

认知无线电的频谱感知算法研究

频谱感知技术、频谱共享技术、频谱管理技术是当前认知无线电的三大核心技术,而频谱感知技术是实现后续的频谱共享和频谱管理的前提。因此主要对当前认知无线电频谱感知技术的基础理论、算法模型以及频谱感知的具体算法做了详尽的分类,并利用Matlab仿真平台对主要的频谱感知算法进行了仿真,并根据仿真结果,比较了各个算法的性能优劣性,可为认知无线电用户的算法选择提供参考,同时也为认知无线电后续的频谱共享和频谱管理工作奠定一定基础。     

认知无线电的频谱感知技术研究

认知无线电技术接入灵活,能够大大提高频谱的利用率,被认为是当前解决频带使用拥挤的最佳方案。认知无线电是一种可以感知周围通信环境来改变发射机在特定的参数上实时改变的智能通信系统。它采用动态频谱管理来提高频谱利用率,高可靠性的频谱感知是实现频谱共享的关键技术,对频谱感知技术的匹配滤波器检测、能量检测、静态循环特征检测和合作检测等进行了讨论,并分析了各种方法的特点和性能。     

Spectrum Sensing Framework for Cognitive Radio Networks

Spectrum sensing feature of cognitive radio devices represents a cornerstone characteristic facilitating real-time and accurate spectrum occupancy measurements in cognitive radio networks. It practically enables the cognitive radio devices to detect vacant spectrum holes and use them for their communication purposes. There are numerous spectrum sensing methods proposed in the literature ranging from local based ones to cooperative strategies among several devices increasing the confidence level of the detected spectrum. This paper gives a general spectrum sensing framework for cognitive radio networks, classifies and explores different spectrum sensing techniques and approaches and shows practical examples, from authors’ own experience, of realized spectrum sensing engines and strategies along with some obtained results.     

一种新的认知无线电频谱感知算法

频谱感知是认知无线电的关键技术之一,通过检测授权用户信号的有无来发现频谱空穴,以提高频谱利用率。基于接收信号的统计协方差理论,提出一种新的认知无线电频谱感知算法,无需信号的先验信息,且计算复杂度较低。仿真分析了该算法,结果表明其在低信噪比环境下,较传统能量检测法有更好的感知性能。     

感知无线电中的高效频谱侦测方案

感知无线电是一种能有效提高频谱利用率的先进技术,他能在主用户没有使用频谱的时候发现并使用"频谱空洞".近来有研究结果表明,在衰落和阴影效应影响下频谱侦测的结果会有大幅度下降.为了削弱衰落和阴影效应的影响联合侦测诞生了,传统的联合侦测方式在每个用户所受衰落不同的情况下不能有效的工作.文章提出一种加权联合侦测来提高联合侦测性能.由大量分析和仿真结果可以表明加权联合侦测能大幅度提高侦测性能.     

认知无线电网络的一种协作频谱感知方案

认知无线电技术能够让非授权用户利用已经分配给授权用户的频段.为了不对首要用户的工作造成干扰,认知用户需要对频谱进行不间断的监测来判断首要用户是否存在.因此,频谱的感知是认知无线电技术的关键.协作频谱感知能够充分的利用网络资源,提高网络中的认知用户的检测概率.文中笔者简单地介绍了一种协作频谱感知的方案.仿真结果表明,通过该方法能够提高网络中认知用户的检测概率,提高网络的检测灵敏度.     

Blind Spectrum Sensing Algorithms for Cognitive Radio Networks

In a cognitive radio network, the spectrum that is allocated to primary users can be used by secondary users if the spectrum is not being used by the primary user at the current time and location. The only consideration is that the secondary users have to vacate the channel within a certain amount of time whenever the primary user becomes active. Thus, the cognitive radio faces the difficult challenge of detecting (sensing) the presence of the primary user, particularly in a low signal-to-noise ratio region, since the signal of the primary user might be severely attenuated due to multipath and shadowing before reaching the secondary user. In this paper, a blind sensing algorithm is derived, which is based on oversampling the received signal or by employing multiple receive antennas. The proposed method combines linear prediction and QR decomposition of the received signal matrix. Then, two signal statistics are computed from the oversampled received signal. The ratio of these two statistics is an indicator of the presence/absence of the primary signal in the received signal. Our algorithm does not require the knowledge of the signal or of the noise power. Moreover, the proposed detection algorithm in this paper is blind in the sense that it does not require information about the multipath channel distortions the primary signal has undergone on its way to reaching the secondary user. Simulations have shown that our algorithm performs much better than the commonly used energy detector, which usually suffers from the noise uncertainty problem.      

Collaborative Cyclostationary Spectrum Sensing for Cognitive Radio Systems

This paper proposes an energy efficient collaborative cyclostationary spectrum sensing approach for cognitive radio systems. An existing statistical hypothesis test for the presence of cyclostationarity is extended to multiple cyclic frequencies and its asymptotic distributions are established. Collaborative test statistics are proposed for the fusion of local test statistics of the secondary users, and a censoring technique in which only informative test statistics are transmitted to the fusion center (FC) during the collaborative detection is further proposed for improving energy efficiency in mobile applications. Moreover, a technique for numerical approximation of the asymptotic distribution of the censored FC test statistic is proposed. The proposed tests are nonparametric in the sense that no assumptions on data or noise distributions are required. In addition, the tests allow dichotomizing between the desired signal and interference. Simulation experiments are provided that show the benefits of the proposed cyclostationary approach compared to energy detection, the importance of collaboration among spatially displaced secondary users for overcoming shadowing and fading effects, as well as the reliable performance of the proposed algorithms even in very low signal-to-noise ratio (SNR) regimes and under strict communication rate constraints for collaboration overhead.