FXLMS算法的matlab仿真

Gordon L. Stüber著，为英文原文第三版。其第二版已经翻译成中文，即为移动通信原理（第二版），由电子工业出版社出版，但翻译水平很差。Gordon L. StuberPrinciples of mobileCommunicationThird edition② SpringerGordon L. StuberGeorgia Institute of TechnologyAtlanta gaUSAstuber @ece gatech. eduISBN978-1-4614-0363-0e-ISBN978-1-46140364-7DOI10.1007/978-1-46140364-7Springer New York Dordrecht Heidelberg londonLibrary of Congress Control Number: 2011934683C Springer Science+Business Media, LLC 2002, 2011All rights reserved. This work may not be translated or copied in whole or in part without the writtenpermission of the publisher(Springer Science+ Business Media, LLC, 233 Spring Street, New York,NY 10013, USA), except for brief excerpts in connection with reviews or scholarly analysis. Use inconnection with any form of information storage and retrieval, electronic adaptation, computer softwareor by similar or dissimilar methodology now known or hereafter developed is forbiddenThe use in this publication of trade names, trademarks, service marks, and similar terms, even if they arenot identified as such, is not to be taken as an expression of opinion as to whether or not they are subjectto proprietary rightsPrinted on acid-free paperSpringerispartofSpringerScience+businessMedia(www.springer.com)To Alana, our son nickolasmy father lothar Stuiberand my late mother Beatrice stiiberPrefacePrinciples of Mobile Communication, third edition, is a major revision of thesecond edition. Like its earlier editions, this book provides a mathematicallyrigorous overview of physical layer wireless communications. The basic pedagogicmethodology is to include fully detailed derivations from first principles. The text isintended to provide enough principle material to guide the novice student, whilit the same time having plenty of detailed material to satisfy graduate studentsinclined to pursue research in the area. The book is intended to stress the principlesof wireless communications that are applicable to a wide array of wireless standardsIt is intended to serve as a textbook and reference for graduate students, and a usefulreference for practicing engineersOrganization of the bookChapter 1 begins with an overview that is intended to introduce a broad array ofissues relating to wireless communications. Included is a brief description of theevolution of various wireless standards, the basic concepts of cellular frequencyreuse, the land mobile radio propagation environment, link budgets, and coverageand capacity of cellular radio systemsChapter 2 provides an extensive treatment of radio propagation, since goodunderstanding of the physical wireless channel is essential for the developmentand deployment of wireless systems. The chapter begins with a treatment ofthe narrow-band faded envelope for conventional fixed-to-mobile channels foundin cellular radio systems, mobile-to-mobile channels found in mobile ad henetworks, and multiple-input multiple-output (MIMO) channels where multipleantennas are used at both the transmitter and receiver to achieve high capacity afterconsidering the narrow-band channel, we consider the statistical treatment of wide-band channels. The emulation of wireless channels is essential for the developmentand testing of wireless systems, and the chapter provides a detailed discussion ofchannel simulation techniques. Finally, the chapter concludes with a discussion ofshadowing and path loss models for land mobile radio environmentsPreraceChapter 3 provides a detailed treatment of co-channel interference which is therimary impairment in spectrally efficient cellular frequency reuse systems. Veryoften the receivers in such systems are affected by multiple co-channel interferersand the probability distribution of the total interfering power is considered. Thchapter also considers the link outage performance due to co-channel interferencein a variety of wireless environmentsChapter 4 covers the various types of modulation schemes that are used in mobilecommunication systems along with their spectral characteristics. The chapter beginswith the mathematical representation of bandpass modulated signals, along withNyquist pulse shaping. Later, a large variety of modulation schemes used in wirelesssystems are considered, including both single-carrier and multi-carrier modulation,and both linear and nonlinear modulation techniques This is followed by a treatmentof the power density spectrum of modulated signals. Although quite mathematicalin nature, power spectrum is an important topic, since wireless systems are requiredto operate within a specified out-of-band emission maskChapter 5 discusses the error probability performance of various digital modulation schemes on narrow-band fat fading channels. The performance is evaluatedwith a variety of receiver structures, including coherent detectors, differentialcoherent detectors and noncoherent detectorsChapter 6 includes a treatment of multi-antenna techniques for combatingenvelope fading. The chapter includes a discussion of various diversity combiningtechniques for coherent, differentially coherent, and noncoherent receiver detectionof signals on fading channels with additive white gaussian noise. also consideredis optimal combining which is effective when the primary additive impairment isco-channel interference rather than noise. Finally, the chapter considers the use ofmultiple antennas at the transmitter in the context of classical beam-forming andtransmit diversityChapter 7 provides an extensive treatment of digital signaling on intersymbolinterference(ISI) channels that are typical of broadband land mobile radio systemsThe chapter begins with the characterization of Isi channels and goes on todiscuss techniques for combating ISI based on symbol-by-symbol equalization andsequence estimation. Later, error probability for maximum likelihood sequenceestimation is considered. The chapter concludes with a discussion of co-channeldemodulation for the purpose of mitigating co-channel interference on Isi channelsChapter 8 covers error control coding techniques for wireless systems. Thechapter begins with a discussion of basic block coding including space-time blockcodes Convolutional coding is considered next along with the Viterbi and BCJRalgorithms for decoding convolutional codes, followed by trellis coded modulationThe chapter then provides a detailed discussion on the design and performanceanalysis of convolutional and trellis codes for awgn channels, and interleaved fatfading channels, and fading isi channels. Later, space-time trellis codes are treatedand the chapter concludes with Turbo codinChapter 9 is devoted to spread spectrum techniques The chapter begins with anintroduction to direct sequence and frequency hop spread spectrum. This is followedy a detailed treatment of spreading sequences. Also included is a discussionPrefaceof the effects of tone interference on direct sequence spread spectrum, and theRAKE receiver performance on wide-band channels. The chapter wraps up witha discussion of cdma multiuser detectionChapter 10 is devoted to multi-carrier techniques. It considers the performanceof ofdm on frequency-selective channels and considers the effect of residualISI and problem of residual ISI cancellation. Later, the chapter examines singlecarrier frequency-domain equalization(SC-FDE)techniques. This is followed by atreatment of orthogonal frequency division multiple access (OFDMA)on both theforward and reverse links. The chapter concludes with a discussion of single-carrierfrequency division multiple acceSs (SC-FDMA)Chapter 11 considers frequency planning techniques for cellular systems. Thechapter begins with a discussion of cell sectoring, cell splitting, and reuse partition-ing. Later, the chapter considers radio planning for OFDMa cellular systems. Thisis followed by hierarchical overlay/underlay architectures based on cluster planningFinally, the chapter wraps up with macrodiversity TDMA cellular architecturesChapter 12 considers CDMa considers CDMA cellular systems, consideringtopics such as capacity and power control This is followed by a discussion ofhierarchical macrodiversity CDMa architectures and their performanceChapter 13 is devoted to cellular radio resource management. The chapter beginswith an introduction to basic hard and soft handoff. Later, the chapter considers theimportant problem of link quality evaluation, including signal strength averaging,velocity estimation, and velocity adaptive hard handoff algorithms later, a detailedanalysis of hard and soft handoff is provided. Finally, the chapter wraps up withmethods for estimating received carrier-to-interference plus noise ratio(CINR)The Appendix includes a brief and focused tutorial discussion of probabilityand random processes. A good understanding of the material in the Appendix isessential, since the concepts are widely used throughout the textUSing This Book for InstructionThe book has been developed from a graduate-level course on physical wirelesscommunications that I have taught at Georgia Tech since 1993. Normally, I prefera graduate-level course in digital communications as a prerequisite for this courseHowever, such a prerequisite may be waived to the extent that there is extensivebackground material in each chapter. A course may cover the introductory materialin each chapter and skip the more specialized material. In my own classes, I alwaystry to judge the mathematical level of the students early and adapt accordinglyThe book obviously contains far too much material to be taught in a onesemester course. However, i believe that it can serve as a suitable text in mostsituations through the appropriate instructor selection of background sections. Myown preference for a one semester course is to include the following material inorder: Chap. 1, Chap 2(skipping the more advanced material), and the first twosections of Chap 3. In moving to modulation waveforms in Chap. 4, an instructormay have to treat/assume basic signal-space representation. However, most students

在OS中调度的实质是一种资源分配，因而调度算法是指：根据系统的资源分配策略所规定的资源分配算法。对于不同的操作系统和系统目标，通常采用不同的调度算法，例如，在批处理系统中，为了照顾为数众多的短作业，应采用短作业优先的调度算法；又如在分时系统中，为了保证系统具有合理的响应时间，应采用轮转法进行调度。目前存在的多种调度算法中，有的算法适用于作业调度，有的算法适用于进程调度；但也有些调度算法既可用于作业调度，也可用于进程调度[1] 。处理机调度常用的算法有：先来先服务算法，高响应比优先算法，时间片轮转算法和短作业优先调度算法。本次课程设计就将模拟先来先服务，时间片轮转，短作业优先，高响应比优先4种调

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提供锯齿波形式的雷达测距MATLAB波仿真程序支持多目标情况。包含时域和频域的分析图像

详细介绍了使用ADSS设计低噪声放大器的步骤，非常适合初学者使用，图文并茂，难度适宜。(二)实验内容了解微波低噪声放大器的工作原理使用ADS软件设计一个低噪声放大器,并对其参数进行优化、仿真■根据软件设计的结果绘制电路版图,并加工成电路板对加工好的电路进行调试,使其满足设计要求三)低噪声放大器的技术指标输入输出反射系数噪声系数放大器增益稳定系数■通带内的增益平坦度(四)用ADS软件设计低噪声放大器本节内容是介绍使用ADS软件设计低噪声放大器的方法:包括原理图绘制,电路参数的优化、仿真,版图的仿真等下面开始按顺序详细介绍用ADS软件设计低噪声放大器的方法1放大器设计的基本准备需要明确的概念S参数、放大器增益(平坦度)、噪声系数、噪声温度、动态范围、三阶交调与1dB压缩)Y稳定性、匹配需要学习的知识匹配电路有哪些形式对晶体管如何馈电And so on2.软件仿真中需要注意的几个问题要有好的软件设计习惯各种文件的命名电路的布局以及参数的设置和选择要有合理的设计顺序要记住你在使用的是软件物理概念要明确,不要在无意义的地方花时间比如:按照加工精度,有些线条太细是不能实现的,另外追求小数点后面N位的精确也是无聊的法高您毫中使用类的速用范围,:比如:小坛模羋就不能用来看≡阶>W,软件中的模型才是对的。等等。注意如何规划仿真,才能尽快得到需要的电路■要按照先局部后整体的优化,切忌直接全局优化,最好能够预先计算设置优化元件的初值。要注意仿真的数值稳定性,对于对参数以来敏感的仿真结果在最后制作的时候是很难实现的。适当的时候需要考虑改系统拓扑。养成不明白就多看看help的习惯2软件仿真中需要注意的几个问题仿真时模型的选择1晶体管■sp模型:属于小信号线性模型,模型中已经带有了确定的直流工作点,和在一定范围内的S参数,仿真时要注意适用范围。S模型只能得到初步的结果,对于某些应用来说已经足够,不能用来做大信号的仿真,或者直流馈电电路的设计,不能直接生成版图。大信号模型:可以用来仿真大、小信号,需要自行选择直流工作点,仿真时要加入馈电电路和电源带有封装的大信号模型可以用来生成版图2.软件仿真中需要注意的几个问题■仿真时模型的选择2集总参数元件电容、电阻、电感:在进行电路优化时,可以直接选用参数连续变化的模型,在系统设计最后,需要把这些优化过的元件替换为器件库中系列中的元件才是可以制作电路、生成版图的。替换时选择与优化结果相近的数值,替换后要重新仿真次,检验电路性能是否因此出现恶化。3ADS的使用启动软件后建立新的工程文件并打开原理图设计窗口Fle Edt Select wisw Insert Options Tools Layout Simulate windowDesimnGude Heb回倒0?小包型A到Lumped-Components黑山圖回翻‖Dc Feed O:BckEHOHI MI NLF01251375

基于 STM32 的多路AD采集程序 使用DMA.使用两路AD同时进行采样。

VB 通过GPIB控制频谱仪 进行控制 读等操作

【实例简介】EC20基于STM32F407 MQTT协议上传数据到onenet

串并转换用VHDL实现 简单易懂 带FIFO各种转换

本元件库包含电气电子专业的各种元件图，可为该专业方向的同学绘制强电弱电等方面的图提供便利。