搜索资源列表
Auditory
- 噪声对室内听觉距离感知的影响研究.rar-Auditory distance perception of indoor noise impact study. Rar
short-termloadforecastingwithchaostimeseries
- 文章展示了一种新的方法用于功率系统中短期负载预测。提出的方案使用混沌时间序列分析基于确定性混沌去捕捉复杂的负载行为特征。确定性的混沌允许我们重构一个时间序列并决定输入的变量个数。这篇文章描述了混沌时间序列对日间功率系统峰值的分析。确定性混沌的非线性图形通过多层感知器的神经网络得到。提出的方案在一个例子中具体阐述。-This paper presents a new approach to short-term load forecasting in power systems. The
Demo_MWC
- 稀疏信号的压缩感知算法,将宽带稀疏信号通过压缩感知的方法压缩为窄带信号便于传输。-Sparse signal compressed sensing algorithm broadband sparse signals compressed by compressive sensing method for narrowband signals for transmission.
Signal-processing-in-cognitive-radio
- 认知无线电中关于频谱感知详细介绍的一篇论文,各种算法都有介绍,大家学习一下。-Spectrum Sensing Cognitive Radio details on a paper, various algorithms are introduced, we learn about.
spectrum-sensing
- 介绍了认知无线电技术中的频谱感知,以及各种频谱感知的方法和优缺点-Cognitive radio technology introduced in the spectrum sensing, and a variety of methods and advantages and disadvantages of spectrum sensing
Underwater-sensor-network-design
- 水下无线传感器网络的研究和设计 无线传感器网络是由大量节点形成的一种特殊Ad-hoc网络,其目的是协作地 感知、采集和处理网络覆盖的区域中感知对象的信息,并发送给观测者。而水下 无线传感器网络是无线传感器网络中的一种,两者有着不少共同的特征,同时由 于水下信道条件的制约,陆地上的一些重要技术又不能直接应用于水下。本章将 首先介绍无线传感器网络的体系结构及节点组成,然后再具体讨论水下无线传感 器网络的特点、面临的问题及技术难度。 -Underwater wireless
Archive
- 可模拟能量检测 在任职无线网络中频谱感知模块有重要应用-Can simulate the energy detection of wireless networks in office, there are important applications of spectrum sensing module
Watermarking-Algorithm-Block
- :利用小波分块思想,结合Arnold 变换算法,提出了一种基于小波分块的水印算法,并且利用人类视觉系统的掩蔽特性,使 水印的不可感知性和鲁棒性得到很好的统一-: The use of wavelet blocks thinking, combined with Arnold transform algorithm, a block of the watermark based on wavelet algorithm, and using the masking properties of
optimization-of-cooperative
- 文章详尽描述了认知无线电中合作感知的参数优化,从感知周期,节点个数等方面展开讨论。-Article describes in detail the cooperation in cognitive radio aware optimization, from the perception cycle, the number of nodes in such areas as discussed.
Candes_Tao06
- Candes_Tao的关于压缩感知的文章,英文版-The article about CS write by Candes_Tao
DantzigSelector
- Emmanuel Candes† and Terence Tao写的关于压缩感知的文章-The Dantzig selector: statistical estimationwhen p is much larger than n Emmanuel Candes† and Terence Tao]
Bayesian_compressive_sensing
- 贝叶斯压缩感知算法的经典文献,相关研究必看-Bayesian algorithm for compressed sensing of the classic literature, relevant research must see
BCS-in-WSN
- 无线传感网络中,压缩感知数据恢复的一种贝叶斯分析,也许能用于分布式压缩感知-Wireless sensor networks, compressed sensing data recovery of a Bayesian analysis, may be used for distributed compressed sensing
izatio
- TD_SCDMA网络基于客户感知的掉话率相关定时器优化分析-TD_SCDMA network based on customer perception of the call drop rate of the relevant timer optimization analysis
joan
- 【摘要】感知无线电可以自动感知外界的无线环境并能调整系统参数以适应环境的变化。频谱检测是感知无线电的关键 技术之一,要求感知用户可靠、快速地检测频谱空洞。文中按照主用户发射端检测和主用户接收端检测,对当前的主要频谱检测 算法进行了分类,并对频谱检测算法进行了讨论和对比研究,给出了在IEEE802.22和频谱池结构中的频谱检测的具体应用。-Abstract cognitive radio can automatically sense the external environment an
compressd-sensing
- 压缩感知的发展与应用,这是目前比较热门的研究方向,在医学,图像等领域应用前景广阔。Development and application of compressed sensing-Development and application of compressed sensing, which is the more popular research in medicine, image and other promising areas of application. Development
sjzy
- 基于视觉注意机制的显著物体轮廓感知,运用itti-Visual attention mechanism based on the significant perception of the contour, the use of itti
Spectrum-Sensing
- 认知无线电频谱感知,这是最新出来的文章,希望对大家有用。-Cognitive perception of the radio spectrum, which is the latest out of the article, I hope to be useful.
cr
- 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。 文章简述 了认知无线电的背景和概念,针对认知无线电的频谱感知能力,详细对比分析了四种频 谱检测技术:匹配滤波器法、能量检测法、循环平稳特性检测法和基于干扰的检测法,在 此基础上分析了当前频谱检测技术所面临的挑战。 最后探讨了干扰温度模型,并展望了 频谱检测技术的发展前景-cognitive radio networks