beauty of communication-通信之美

对旅行商问题的解法提出了蚁群算法，并用MFC编程实现，有比较有好的界面，并对问题做了细致的分析。

CMW500的资料不多，这是非常不错的参考资料R&s CMW 500Contents overviewContents overview1 Preparing the Instrument for Use2 Getting Started3 System Overview4 Basic Instrument functions5 Remote Control6 System Command Reference7 General Purpose RF Applications8 GSM Applications9 WCDMA Applications10 WiMAX Applications11 AnnexesNote about Faceless InstrumentsChapter 1 of this manual gives an overview of the front panel controls and connectorsof the R&s CMW 500 Wideband Radio Communication Testers with display and givesall information that is necessary to put the instrument into operation and connectexternal devices. The application examples in Chapter 2 and the following chapters arealso based on a r&S CMW 500 with displayThe measurement functionality of the two instrument types is identical. You can test allmeasurement examples reported in this manual using an r&S CMW 500 withoutdisplay that is controlled from the Graphical User Interface displayed on an externalmonitor or pcFor specific information concerning faceless instruments refer to your quick start guide.Operating Manual 1202. 3986.32-03R&s CMW 500ContentsContents1 Preparing for Use…日日画1.1 Front Panel Tour1.1.1 Utility Keys…1.1.2 Status LEDs and Standby Key1.1.3 Display…1.1.4 Softkeys and Hotkeys1.1.5 Setup Keys1.1.6 Data Entry Keys223334561.1.7 Rotary Knob and Navigation Keys1.1.8 Front panel connectors1.1.8. 1 RF Connectors1.1.8.2 LAN Connector1.183 SENSOR Connector1.184 USB Connectors1.1.8.5 AF Connectors888881.2 Rear panel tour:::::B:1.3 Putting the Instrument into Operation1.3.1 Unpacking the instrument and checking the shipment1.3.2 Instrument Setup...............001.3.3 Bench Top Operation1.3.4 Mounting in a 19 Rack121.3.5 EMI Protective measures131.3.6 Connecting the Instrument to the AC Supply131.3.7 Power on and off…131.3.8 Replacing Fuses141.3.9 Standby and ready state141.4 Maintenance15Operating manual 1202.3986.32-03R&s CMW 500Contents1.4.1 Storing and Packing151.5 Connecting External Accessories…………,…,…,…,…,…,…,………,……….151.5.1 Connecting a mouse161.5.2 Connecting a Keyboard161.5.3 Connecting a Printer1.5. 4 Connecting a monitor1.5.5 Connecting a LAN Cable788916 Starting the R&scMW500 and Shutting D。wn…,.....,.,…,,,191.7 Remote Operation in a LAN...........-.201.7.1 Assigning an IP Address201.7.2 Remote Desktop Connection221.8 Windows xP国国国面1.9 Firmware Update…,,…,,,,,,,,,",…,…222 Getting Started,…,…,…252.1 Basic tasks.…252.1.1 Accessing Dialogs252.1.2 Using Keyboard Shortcuts272.1.3 Data entr272.14 Using Front Panel Keys.……282.1.5 Using an External Keyboard2.1.6 Task bar302.2 Sample Session…312.2.1 Generating an rf signal312.2.1.1 GPRF Generator2.2.2 Measuring an RF Signal332.2.2.1 GPRE Power333 System Overview…363.1 Generators363.1.1 Generator Control363.1.2 RF Path Settings(Generators)37Operating manual 1202.3986.32-03R&s CMW 500Contents3.2 Measurements383.2.1 Measurement control383.2.2 Connection Control(Measurements393.2.3 Statistical Settings3. 2. 4 Statistical Results3.2.4.1 Statistics Type423.2.4.2 Detectors433.2.4.3Peak∨ alues.433244 Averaging…443.245 Standard deviation143.2.5 Trigger Settings453.2.6 TX Measurements453.2.6.1 Power results463.2.6.2 Modulation accuracy3.2.6.3 Adjacent Channel Power(Spectrum)493.2.6.4 Spectrum Emission Mask493.2. 6.5 Code domain power503.2.6.6 Multi-Evaluation measurements4 Basic Instrument Functions534.1.1 Startup Dialog534.2 Utility Dialogs544.2.1 Reset Dialog..4.2.2 Print Dialog554.2.3 Save/Recall Dialog564.3 Setup Dialog…,,,,…574.3.1 Activating Options584.3.2 Selftests…594.3.2.1 General test features604.3.2.2 Board Tests614.3.23 System Tests…62Operating Manual 1202.3986.32-03R&s CMW 500Contents4.3.2.4 Performing Selftests24.3.25 Selftest Parameters634.3.3 Reference Frequency654.3.3.1 Reference Frequency Settings654.3.4 Measurement Controller Dialog664.3.5 Generator Controller Dialog665 Remote Control685.1 Remote Control Operation685.1.1 Establishing and Testing a LAN Connection705.1.2 Switchover to remote control5.1.3 Return to Manual Operation715.2 Messages国国国面…725.2.1 VXI-11 Interface Messages725.2.2 GPIB Bus Interface Messages..725.2.3 Device Messages(Commands and Device Responses)735.2. 4 SCPl Command structure and syntax735.2.4.1 Common commands745.2.4.2 Instrument-Control Commands5.2.4,3 Structure of a command line765.2.4.4 Responses to Queries5.2.45 SCPI Parameters,775.2.4.6 Use of SCPl Subsystems95.3 R&s CMW Software and command structure5.3.1 General command structure5.3.2 Firmware applications815.3.3 Measurement Contexts and views5.4 Control of the instrument825.4.1 Measurement Control825.4.1.1 Measurement states and measurement control commands835.4.1.2 INITiate: : MEASurement84Operating manual 1202.3986.32-03R&s CMW 500Contents5.4.1.3 ABORt: MEASurement 8554.14sTOP:< Application> MEASurement>.,……855.4.1.5 Measurement substates855.4.2 Statistical Settings865.4.3 Retrieving Measurement Results885.4,3. FEtCh.? Command885.4.3.2 READ.? Command∴8954.33 Retrieving Single∨ alues and traces.…5.4.4 Reliability Indicator5.4.4.1 Common Reliability Indicator……5.4.5 Multi-Evaluation Measurements5.4.6 Generator control925. 4.7 RF Path Settings945.4.8 Resource and path Management∴945.4.8. 1 Basic RPM Principles5.4.8.2 Queuing of Measurements∴9654.83 Causes for task Conflicts5.4.8.4 Monitoring Measurement and Generator States995.5 Command Processing...:::::B:995.5.1 Input Unit1005.5.2 Command Recognition1005.5.3 Data base and instrument hardware1015.5.4 Status Reporting System1015.5.5 Output Un1025.6 Status Reporting System1025.6.1 Overview of status Registers1035.6.2 Structure of an SCPl Status Register…1035.6.2.1 Description of the five status register parts1045.6.3 Contents of the Status Registers1055.6.3.1 STB and sre.105Operating manual 1202.3986.32-03R&s CMW 500Contents5.6.3.2 IST Flag and pPe.1065.6. 3.3 EsR and ese∴1075.6.3 4 STATus: OPERation1085.6.3.5 STATus QUEStionable1085.6.4 Application of the status reporting s ystem1085.6.4.1 Service Request1085.6.4.2 Serial poll1095.6.4.3 Parallel poll1095.6.4.4 Query of an Instrument Status1105.64.5 Error queue.….115.6.5 Reset Values of the Status Reporting System1116 Command reference∴∴11361 Special Terms and Notation…,…………,…,…,………,…,…,,…,………………1136.2 Common commands1156.3 Instrument-Control commands.117631 MMEMory Commands…..,,,…,,……1176.3.2 Ref Frequency Commands1206.3.3 STATus Commands1216.3.4 SYSTem Commands1256.3.5 LAN Services1256.3.6 Miscellaneous Instrument Settings1286. 4 Alphabetical List of Commands System)1317 GPRF Applications1337.1 GPRF Measurements and generators1337.1.1 General Purpose RF Generato.1337.1.1.1 GPRF Generator(Constant Frequency)1337.1.1.2 Arbitrary RF Generator(Option R&S CMW-B110 A)1347.1.13 List Mode∴1357.1.2 Power measurement1357.1.2.1 Test Setup…135Operating manual 1202.3986.32-03

用于鱼眼摄像头的一个环视参考文档很不错，自己最开始做这个相关的项目就是参考这个文档，发现写的很是不错，非常值得参考特别有用的，哈哈哈哈哈哈哈哈哈哈赵三峰,谢明,陈玉明:基于逆向投影的全景泊车系统设计与实现其中,(x,y)表示校正图像的坐标,(x,y)表示鱼眼图像的坐标此算法的效果如图所示。1------图校正前后图像俯视变换clay.OB图离散化后的路面本文采用直接线性变换()来找到俯视变换的投影矩阵,这种方法的优点在于不需要知道摄像头视RR角等参数,只需要在图像坐标系下标定对特征点就可R以计算出个未知的参数,从而得到单应性矩阵,并利R用单应性矩阼完成俯视变换。其中,M表示合成图像的宽度,单位:像素;No表示直接线性变换的公式如下合成图像的高度,单位:像素;R表示合成区域的宽Coxi i+Coli+Cu22i +Cu3)度,单位:;R1表示合成区域的长度,单位(iam,0)表示图像的坐标,单位:像素;x,y表示合成区C102+(ny2+C12x;+CrC20x:+C21y+C2231+1)域路面的坐标,单位:。下面判断路面上的点被哪个摄像头拍到,因此将路其中,(2v)表示图像坐标,(xy2)为物体空间坐标,面分成八个区域,如图所示Co,co1,…,C2为未知参数。但是本文的物体选择的是路面特征点,因此公式的z=0,简化后的二维公式为:(左前前)(右前)IX). Ti t Coli+CUsC0x;+C21y;+1(左)汽车v C1o x, +C11)2+C13C20x:+C21y1+1如果川矩阵的形式表示,如下(左后)(后)(右后)ROT=C1C1 CI图路而的八个区域图中,Il、ⅣV、V和ⅤI四个区域只能被前,左,RO表示路面坐标到图像左边的变换矩阵,则ROn右,后四个摄像头看到。I、I、VI和VI为两个摄像表示图像到路面的投影矩阵头的交叉区域,可能被两个摄像头看到,因此需要判断图像合成交叉区域被哪个摄像头采集到,四个交叉区域的判别方本文的创新点就在于跳出了传统图像拼接的想维,法相同,因此以区域1为例描述如下采用一种更加简单有效的算法来实现无缝拼接全景。)取区域I内任意一点(jo),计算其路面坐标假设路面合成区域的大小为长R1,宽为Rw,单假定该点可以被前摄像头采集到,通过与前摄位:。R的宽度方向平均分成M等份,R1的高像头的投影矩阵ROlo相乘,便可以得到该点在前摄度方向平均分成N等份,其中任意一点坐标用(mm)像头的像素坐标av),如果0≤

基于Matlab软件，实现了语音识别中的DTW算法，DTW算法使用了时间伸缩技术，解决了以前语音识别中，训练模板和参考模板帧长不一样的问题

该程序使用过的是一维线性插值法，并加端点延拓，端点延拓所用的方法是镜像延拓，内涵注释。

一个云计算的概述PPT，从云计算的五大核心技术简略讲解了云计算，对于云计算有一个大致的感官。

针对RPCA（鲁棒pca）的pptPCAPCA直观理解PCA矩阵相乘与投影向量B的模为1,则A与B的内积值等于A向B所在直线投影的矢量长度PCA矩阵相乘与坐标空间映射C三BQB为单位向量,相互正交CCBBPCA月gPCASVD=2OOOOO为单位向量,相互正交PCA前特征前特征前特征iiii出补R:_}原图P与前特征前特征前特征ROBUST PCA经典PCA局限性smc∥ Gaussian noises sparse, large errorsclassical PCA outputclassical PCA outputROBUST PCA提出 Robust pca给出:D=A0+E0,恢复A0和EoLoW-rankSparse componentcomponentgross errorsmin rank(A)+rIEllo subj A+E=D低秩:rank(A)=#{0(A)≠0}sparse, large errors稀疏:‖E|0=#{E;≠0}Not always -original problem is NP-hard

WINCE程序打包工具、打包成CAB安装文件

自己编写的一些代码。matlab编程实现矩阵LU分解、QR分解、Jordan约当标准型。

1.安装插件导出DAE模型解压后将插件COLLADAMaxNew.dle文件存放于3ds MAX2014安装目录下的plugins文件夹，本示例地址为：“C:Program FilesAutodesk3ds Max 2014plugins”。重启3ds MAX，打开原始三维模型，选择“导出|Export”，选择文件存放路径、输入文件名称，保存类型选择“OpenCOLLADA(*.DAE)“格式。点击“保存”，弹出“OpenCOLLADA Export”对话框，勾选”copy Images”，点击OK。导出DAE模型操作完成后，DAE格式的模型将存放于目标路径下，其中还包括了一个“