双闭环整流电路matlab仿真(svpwm.slx)

全部资料非常详细的模糊控制例子matlab仿真模糊控制分析

optisystem和matlab协同仿真的一篇文章，以光幅度调制器为例，用matlab构建后，放到optisystem系统中进行仿真，文中包含构建光幅度调制器的m文件代码。104计算机与现代化2010年第12期NoiseNumber= eng h( Inpu ortl. Nose);193Hz192%TTH Zif( Samp edvm berGb it/sfor i= 1:len umberOptsysten%OutputPortl. Sam pled( i). Signal( l, :)=Am plitude odu brstystemtoIS am pled( In pu Portl Sam pled( i). Sgnal( 1,:), real( InputM atlabPort2 Sam pled Signal))%Po hr ization umber= sie( lnputPortl Samp ed( i). Snal 1)OptS ystem M atlaltrif( PohrizationNumber== 2)Ou putPortl. Sam pled( i)ystemSignal(2 :)=Am plitudeM odulato IS amp led( Inpu Portl Samp edOptsystem(i. Signal( 2: ) rear InputPort2 Sam pled S ignal))Md % oif( Param eter izedNumber>0)[1]GovindPagrawalOverview[Eb/oL].http://www.optifor i= 1: Paran eterizedN umber OuputPortl P aran eterizedwave com/produc ts/sys tom_ove Iv iow. htm I 20 10-06-01Pow er= Amp lind eM odu latorP aram eter ize( In pu tPortL Param eter[2 Opt ave Corpo ra tion O ptSystem 7 Q getting S tarted andized Power real( Inpu tPor2 Samp ed Signal));Tutori b- Signal represen tation[Z]. 2008[3] Optw ave Corporat on O pt by stem 7.0 Hep-M atlab Camd 90ponent[Z]. 200&if(no ieN umber> 0)[4]#八不”卜氵厶for i= I: noiseNumber術部. OptSysten E m atlab o)x?氵xb氵3冫事OutputPortl. Noise Pa er= Am plitude odulato Nose( In-Leb/Ol].httpr//www.cybemetcajp/optwave/optipu tPortl. noise Pow er reaI InputPort2 Sam pled S ignal))Sys tem /s tor es/Examp k 3 pdf 2010-08-31[D]200912-18AmplitudeM odu latorS am p led Amp litud eM odu latorRFIDParam eterized Amp litud em odu lator o ise 3[J20097(6)497-500M[7 M a jinx n Y u Jian un Y u Chong iy et a.I Infuence of theOptrmodu latin index ofm achr zehnder modu a tor on r of linkystem 7.0M atlahwith a sK m il lim ete rw av e sina l[J. O ptics& lase rTechrOptrn200941(1):11-16System314[8 He Jian, Zhu Xue un M achr Zehnder type annea led protonexch ange w avegu ide and cop hnarw avegu ie m adulation electrode Linbo 3 tens ity m odulator[ J]. Sem iconduc brOptcalPho ton ics and Techno bgy 2007, 13(1):6975.Optical spectrum Analyzer. 1Ded dck on Ceste te open certes, Mowe obed wth Msise DragAudo Set[9[小,200835(8):11851190[10Star 1.5030Je.2010Q10(3):15-17Amphid[11 Opti ave Corporat in O pt Sys tm U ser s Reference[z]. 2008T Sumac anoeMin[104.7192009厂 Heackubon Bandwith(4):31932215日155日1“日15日153日[13(2)[Mpower K power X A ROwDY/2009M atlab52006o1994-2011ChinaAcademicJournalElectronicPublishingHouse.Allrightsreservedhttp://www.cnki.net

用于模拟高斯光束的三维图像，通过改变参数可以得到各种高斯光束的图像，适用于高斯光束有关的模拟分析

SVD奇异矩阵分解在推荐系统中的应用python源码，感谢原作者。SVD的python实现，具体参考http://www.cnblogs.com/FengYan/archive/2012/05/06/2480664.html

国产灰色关联度分析软件，可以计算各种灰色关联的计算，由南航刘思峰开发

【实例简介】LCD12864点阵显示屏对初用者来说还是很难的，本例通过keilC51de 程序，控制LCD12864显示一 个正弦波，很有趣味性，使初用者很快入门，学会对LCD12864一系列的液晶屏的灵活使用了。

JSP毕业设计作业：奖学金评定系统Java源码

一、OFDM原理及其实现 1、OFDM技术简介 2、OFDM优缺点 3、OFDM原理及其实现 二、MIMO技术简介 1、MIMO技术简介 2、OFDM和MIMO结合的必要性 三、MIMO-OFDM的信道编码方案 1、新型Walsh编码方案 2、Walsh-Hadamard变换及其在该方法在信源

windriver 10.21 附注册码，亲测可以在64bit的win7下使用

无人驾驶汽车系统入门 - Autoware_UsersManual_v1.1Autoware-用于城市自主驾驶的集成开源软件，支持以下功能：3D本地化3D映射路径规划路径跟随加速/制动/转向控制数据记录汽车/行人/物体检测交通信号检测交通灯识别车道检测对象跟踪传感器校准传感器融合面向云的地图连接自动化智能手机导航软件仿真虚拟现实Autoware受BSD许可证保护。请自行负责使用。为了安全使用，我们为不拥有真正自主车辆的人提供基于ROSBAG的仿真方法。如果您使用Autoware与真正的自主车辆，请在现场测试之前制定安全措施和风险评估。工尹-刁一定義亡机飞求世。Chapter1。 About This documentThis chapter describes the purpose of this document.Autoware Users ManualAutoware Developers manualChapter2。 RoS and AutowareBefore operating Autoware, RoS and Autoware are described in this chapter.Robot middleware- rosecently, the wide range potential of robotics has been focused by not only roboticsexperts but also non-robotics experts to join robot development It is believed thatthis trend leads robotics to advancement and developments to other domainsHowever, robot development is getting harder because the advancement and the complexityof robot functions have been increased Unlike Pcs and smartphones robotic developmenthas considered various hardware, OS, programming languages. Hence, the differences havemainly been obstructed for robotic developers as well as robotics experts to join robotdevelopmentTo solve the problem, the demand of making common platforms has been increased, andsome platforms have been published Within a common platform, developers can combinevarious software published by other developers, and speed up development by reusing themTherefore, it is expected that developers can more focus on fields of interestROS (Robot Operating System) is a framework for robotic software development. It wasdeveloped by Willow Garage in U.S. OSFR (Open Source Robotics Foundation) has currentlymaintained it. The open sourced ros has mainly been used by communities in U.S. andEurope as well as communities in JapanNote that ros has "os" in its name however, it is not "os" like Windows or linux. It is amiddleware that runs on uniX based OSROS FeaturesOriginal build system(Catkin)mage processing library(OpenCvv Data logging tool (ROSBAG)v Visualization tools for data and software state(rvizCoordinate transformation library (TFQt based gul development tool (RQTA""file is used to start multiple nodes atAutowareutoware is open source software based on ros. autoware is pushed on github forautonomous driving research and development. Most of autonomous drivingsystem consist of recognition, judgment, and operation. Autoware providesnecessary functions, such as 3-D map generation, localization, object recognition, andvehicle control, for autonomous drivingROS PCAutoware〔Ros)RecognitionJudgmentoperationObject DetectionLane KeepingAcceleratorLocalizationIntersectionBrakeSteeringAutowareRiderAutoware routePath PlanningVehicleVehicle control(CAN)CFigure 1 Autoware overviewwhile support systems such as driving assistance and safetydiagnosis support, use multi-core CPU3-D Map Generation and SharingLocalization(NDT: Normal Distributions Transform)object DetectionPath GenerationAutonomous Drivingtarget speed. In addition, the route includes landmarks, "way point, setintervals. The autonomous driving system operates path following by following the wayUser InterfaceA user interface called " Runtime Manager ofpath following. Furthermore, a tablet user interface, "Autoware Rider, of Autoware enablesROS PCAutoware(ROS)Runtime ManagerVIZAutoware ridertabletDisplay on vehicleOculusFigure 2 User interfacePlatform structure for autowareApplicationAutowareMiddlewareROSHost OsLinux( UbuntuCPUGPUCameraGNSSLIDARFigure 3 Platform structure for Autoware