以太网VERILOG程序.zip

二自由度车辆动力学模型(Simulink)

迅为-I.MX6开发板 Cortex-A9四核I.MX6Q,主频1G,2G内存，16G存储，支持4G全网通，GPS WIFI蓝牙模块，千兆以太网，摄像头，SATA等接口，多屏异显，双屏同显TOPET全能版用户使用手册www.topeetboard.com1.2.144G模块·1.2.15WIFI模块……421.2.16GPS模块431.2.17网口…………………441.2.18LCD接口………………………………………451.2.19HDMI接口…471.2.20OTG接口481.2.21RTC实时时钟……491.3配套资料…50131光盘资料……132网盘资料14网盘压缩包MD5值的使用…541.5开发板扩展口的原理图和PCB管脚对应方式介绍…………571.6串口硬件修改………………581.6.1Ⅵ13版本串口修改方法……1.62V2.0和V21版本串口修改方法581.7扩展文档1.7.17寸屏亮度调整……1.7.2屏幕亮度调整二iOP-MX6开发平台组装和初体验…602.1开发板的组裝60211控制台( console)串口60TOPET全能版用户使用手册www.topeetboard.com21.2屏幕的连接……………………………………………60213电源的连接672.2iTOP-iMX6启动模式…………682.21启动模式设置(拨码开关)682.2.2 uboot模式·····62.2.3文件系统模式23iTOP-iMX6开发平台初体验………………………702.31系统基本功能…232USB和OTG功能……75233网络设置和连接234多媒体2.3.5GPS功能(选配)…822.3.6游戏性能………………………………………8323.7蓝牙功能………着看垂垂…852.38SATA接口硬盘测试…862.39加速度计和电子罗盘〔选配件,该节仅作为参考)……8924扩展文档22.4.1迅为核心板装配指导922.4.2SIM卡座接触不良的解决办法…………9324.3VGA模块使用过程·垂垂着量D垂…………93三订TOP-MX6平台基本软件的安装3.1超级终端的安装和使用…………………94TOPET全能版用户使用手册www.topeetboard.com311安装USB转串口驱动94312超级终端的安装931.3超级终端的设置102314超级终端的系统配置………104315超级终端保存日志……10732安装虚拟机以及 Ubuntu12.042等软件11032.1虚拟机 VMware-workstation的安装11132.2虚拟机加载 Ubuntu12042镜像……………………………1223.2.3虚拟机安装 Ubuntu1204.2初始系统…垂.垂…………1263.2.4虚拟机 VMware- workstation联网以及基本设置133325安装和使用SSH软件13833 Ubuntu的基本操作1433.31初识 Ubuntu12.04.2以及 Ubuntu命令行………………………143332 Ubuntu中启用root用户………146333 Linux常用she!命令……………………………………………14833.4 Linux的重要命令 apt-get……154335安装和使用SSH软件……1623.3.6虚拟机 Ubuntu扩展硬盘空间…………………………1693.37虚拟机无法识别USB3.0的解决方法………1773.38U盘、TF卡与虚拟机连接…178339 Ubuntu图形界面无法登陆解决办法…1813.3.10虛拟机和主机之间共享文件夹…………………………………………183TOPET全能版用户使用手册www.topeetboard.com34vim编辑器鲁·非垂··垂·看垂布着幸……………1953.41安装vim编辑器……………1963.42Vim打开文件以及新建文件196343三种模式的切换·…198344Vim编辑器常用基本命令……20035 Source Insight的安装和使用…202351 Source Insight的安装···…………202352使用 Source Insight查看内核代码20336安卓ADB功能介绍…垂.垂……2113.61安卓ADB驱动的安装………2113.6.2ADB的基础知识…………2163.6.3常用的ADB命令2193.64ADB驱动安装常见问题解决办法汇总………………………2243.7代码对比器 TextDiff. exe22638二进制编辑器·………………………2283.81下载 Hex editorⅡ软件………2283.82 Hex editorⅡ软件使用……22939Win8下基础软件的安装和学习………………………230391超级终端的安装和使用……230392win8下安装虚拟机以及 Ubuntu12.04.2等软件………………………240393wn8下的 cmd.exe程序2413.10win81下基础软件的安装和学习243TOPET全能版用户使用手册www.topeetboard.com3.101Win81下PL2303USB转串口驱动安装…………2433102Win81下安卓ADB驱动的安装………………2493103win81下的 cmd. exe程序251311win10下基础软件的安装和学习251311.1win10USB转串口PL2303驱动安装…………………………2513112win10ADB驱动的安装……2583113Win10下的cmd.exe程序259312扩展文档………………2593121共享文件夹……………2593.122清除虚拟机安装残留…2603.123ssh常见问题以及解决方法2603.124无法使用ⅵ编辑器解决办法2603125修改adb调试权限………………………2603.126im详解文档260四iToP-iMX6开发板镜像的烧写………………………………2614.1OTG烧写环境2614.2烧写 Android…2644.3烧写QT……26944 uboot的 bootargs参数重置…………2734.5扩展文档…………2744.5.1TF卡开机自动烧写镜像275五系统开发板环境以及编译…………………………276TOPET全能版用户使用手册www.topeetboard.com51使用搭建好的编译环境·垂音普垂垂章非音音音音2765.1.1搭建好的编译环境·2765.1.2环境变量和 Javap路径的修改·…27752搭建系统基础编译环境…2785.2.1基础软件的安装……………278522交叉编译工具的安装…2815.2.3修改交叉编译工具的路径(修改环境变量2835.2.4安装JK…………………………2855.2.5安装库文件…2865.2.6降低GCC版本………28853 Android源码编译………2925.31 Android源码整体编译2925.32单独编译*……………………………………………………………29554Qt的编译29954.1 uboot编译……2995.4.2 kernel编译29954.3文件系统300六 Qtopia2.2.0开发环境搭建以及编译镜像30361编译器和基本库文件的安装……·看音非·垂30462 Qtopia22.0源文件和补丁文件…………………………30763库文件和编译 Qtopia22.030864 Qtopia系统源码编译翻看看番311TOPET全能版用户使用手册www.topeetboard.com七QtE的编译和使用说明……31371QtE47编译…………………………………3147.1.1QtE47编译器的安装3147.1.2QtE4.7的编译3167.2QtE5.7编译……………3177.2.1QtE57编译环境的两种搭建方式……318722 Ubuntu16.04系统编译 uboot和 kernel……………3257.23编译QtE5.7源码…………3287.2.4生成QtE5.7镜像………3327.3Qt/E4.7和 Qtopia的切换………3357.3.1设置开发板优先运行的文件系统………3357.3.2Qt/E4.7和 Qtopia2.2.0的触摸校准…3367.3.3系统运行后QtE4.7和 Qtopia2.2.0的切换……………3774QtE厍的编译配置选项简介…………………………3387.5QtE4.7根文件系统升级…………………3417.51QtE4.7连接WFI(MT6620的使用)…3417.5.2QtE4.7使用4G上网(EC20的使用)3427.6QtE5.7根文件系统升级………34276.1旋转触摸升级(20180511)…………342八基于 Linux-c的测试程序…34681测试程序的编译和运行3468.1.1编译环境的设置翻看看番346TOPET全能版用户使用手册www.topeetboard.com81.2编译 helloworlo…···347813上传 helloworld到开发板34881.4修改程序权限和运行 helloworld……34982Led灯的测试…3498.3 Buzzer蜂鸣器的测试…………35084串口收发测试352九定制 Linux内核··········:·*…3559.1缺省文件配置…3559.2驱动程序源代码的位置·35693 Menuconfig的用法………………………35894手动定制LnuX内核36794.1配置CPU平台文件368942内核编译器设置……6994.3小灯Led…3699.44蜂鸣器 Buzzer…9.4.5RS-485……………………3729.4.6RTC实时时钟3749.4.7RFID/RC522………375948I2C总线…………376949SPⅠ总线…37794.10CAN总线……37994.11串口虚拟控制台 console……38010

资源包括认知无线电频谱感知的一篇奠基英文论文和几篇有用的中文论文~~还包括了能量检测算法的matlab程序代码~~

自己写的"计算峰值信噪比PSNR"的matlab函数,有详细注释.应该是初学者想要的.

实现用matelb编程的三维形貌图程序，利用傅里叶变换自动生成频谱图

内含雷达系统设计MATLAB仿真的pdf和代码，主要包括：雷达基础导论，雷达检测，雷达波形，雷达模糊函数，脉冲压缩，面杂波与体杂波，动目标显示和杂波抑制，相控阵，目标跟踪，电子对抗，雷达截面积，高粉笔啊率战术合成孔径雷达，信号处理等。

C++ MFC大作业，全班最高分 个人日程管理系统 实现开机启动 定时提醒 定期提醒 备忘录 固定节日提醒 个人日记 选择提醒音乐 等功能 优化UI界面

【实例简介】直接导入MyEclipse，指向json文件路径、实体类存放路径，直接生成！ 简单方便实用！易操作！开发人员必不可少的工具！

1、这个工程只是预处理人脸表情的，不含有训练和识别部分。预处理包括：人眼定位（人眼粗定位，双框框定，人眼精确定位）——几何预处理（人脸图像的旋转矫正、人脸图像的分割、人脸图像缩放）——灰度预处理（直方图均衡化）2、详细可参考：http://blog.csdn.net/raby_gyl/article/details/121755673、工程是基于vs 2008和opencv 2.30编写的。4、工程的测试图片是日本jaffe女性人脸表情库。5、工程是基于一篇优秀的硕士论文写的，论文名字是：基于Gabor小波变换和SVM的人脸表情识别 作者： 王黎燕

美国NGSIM系统的使用手册，方便读者高效的利用NGSIM进行数据下载，完成交通领域的研究Technical Report Documentation Page1. Report No2. Government Accession no3. Recipients Catalog NoFHWA-HOP-06-0124. Title and subtitle5. Report DateNext Generation Simulation(NGSIM) Data Format Planly20046. Performing Organization Code7. Author(s8. Performing Organization report noVijay Kovvali, richard margiotta, Robert franc, vassiliAlexiadis9. Performing Organization Name and Address10. Work Unit NoCAMBRIDGE SYSTEMATIC INC150 CAMBRIDGE PARK DRIVE SUITE 400011. Contract or grant noCAMBRIDGE MA 02140DTFH61-02-C-0003612. Sponsoring Agency Name and Address13. Type of Report and Period CoveredDepartment of transportationFinal reportFederal Highway AdministrationJuly 2003-july 2004Office of Acquisition Management14. Sponsoring Agency Code400 Seventh Street SW, RM 4410Washington, DC 2059015. Supplementary notesFHWA COTR: John Halkias, Office of Operations, and James Colyar, Office of Operations r&d16. AbstractThe Next Generation Simulation Program(NGSIM) Data Format Plan was developed to define thestructure, documentation, and transfer requirements for data that will be collected for estimationcalibration, and validation of core behavioral algorithms. The development of the data Format Plan isbased on existing formats that are relevant to ngsim and augmented to fill in gaps. to this end, a reviewof existing data formats was undertaken and their relevance to NGSiM was assessed. The review includeddata standards developed for intelligent transportation systems(ITS), data formats developed specificallyfor traffic simulation models, and data formats developed for broader transportation applications. Thespecified data formats were developed with the objective of promoting efficient research by maintainingonsistency between data collection and research, and providing consistent storage and transmittalprotocols. On the other hand, this plan intentionally avoids over specification of data formats, so as tominimize unnecessary limitations to research. This document specifies the conceptual data model by meansof Unified Modeling Language UMl class diagrams; the data dictionary in the data standard prescribed bP1489-1999 format developed by the Institute of Electrical and Electronics Engineers(IEEE); the dataexchange structure for data transfer from user to user or from the database/repository to users; and theNGSIM metadata17. Key words1 8. Distribution StatementNext generation simulation, NGSIM, trafficNo restrictions. This document is available to thesimulation, high-level plan, traffic data collection, public through the National Technical Informationvehicle trajectory dataService, Springfield, VA2216119. Security Classif. (of this report) 20. Security Classif. (of this page) 21. No of Pages22. PriceUnclassifiedUnclassifiedForm dot e1700.7(8-72)Reproduction of completed pages authorizedTABLE OF CONTENTSEXECUTIVE SUMMARY1.0 INTRODUCTION1.1High- Level plan context……垂垂垂垂·着垂垂垂垂非垂·非垂垂看垂音非非;·垂垂音看垂看垂1.2 Background1.3 Data Collection Types……1344581. 4 Data Conversion1.5 Data Formats·····.···············.··.···.·;···..·.··..·.···2.0 NGSIM DATA REQUIREMENTS22 Microsimulation Software Data format,…………172.1 NGSIM Data…192.3 Rcquirements for NgsiM data Collection..................193.0 RECOMMENDED NGSIM DATA FORMATS..m. 233.1 NGSIM Data model233.2 NGSIM Data Dictionary……………243.3 NGSIM Metadata.............................253.4 NGSIM Data Exchange Format273.5 File and Directory Naming Convention……293.6 Summary30REFERENCES31APPENDIX A-REVIEW OF EXISTING TRANSPORTATION DATA FORMATS3APPENDIX B-ACCURACY REQUIREMENTS FOR NGSIM DATACOLLECTION,45APPENDIX C-DATA MODEL∴….,,53APPENdIXD-DATA DICTIONARY.APPENDIX E-METADATA. ...........................................................................................99APPENdIX F-SYSTEM-STATE DATA看香音看音香n117List of FiguresFigure 1 Diagram. NGSIM task interdependencies4Figure2. Diagran. Data format classification relevant to ngsim1………Figure 3. Diagram. Top level data model of general traffic simulation55Figure4. Diagram. Influencing factors database packages………………56Figure 5. Diagram. Behavioral models packages57Figure6. Diagran. Facility type generalization…………18Figure 7. Diagram. Traffic management systems generalization......59Figure 8. Diagram. Transit management systems generalizationFigure9. Diagran. nvironment generalization.………………………0Figure 10. Diagram NTCIP Controller class diagram61Figure 11 Diagram Actuated traffic signal controller generalization2Figure12 Diagram. Generalized microsimulation data model………………63Figure 13 Diagram Data concept components and constructs(IEEE Std 1489-1999)66List of tablesTable 1. Example validation data by algorithm categoryTable 2. Summary of NGSiM categorizations for data formatsTable 3. Accuracy requirements for vehicle trajectory data. ..45Table 4. Accuracy requirements for instrumented vehicle data.........46Table 5. Accuracy requirements for wide-area detector data......... 47Table 6. Accuracy requirements for nctwork-rclated data48Table 7. Accuracy requirements for representative transportation managementsystems data52Table 8. Terminology for UMLmodeler54Table 9. Data dictionary for NgSim.67Table 10 processing documentation metadata for ngsimwwwwwm116Table1l. Requisite vehicle trajectory data…………………………117Table 12. requisite wide-area detector data requirements……118EXECUTIVE SUMMARYThe Next Generation Simulation Program(NGsim) Data Format plan was developed todefine the structure, documentation, and transfer requirements for data that will be col-lected for estimation, calibration, and validation of core behavioral algorithms. Thedevelopment of the data format plan is based on existing formats that are relevant toNGSIM and augmented to fill in gaps. To this end, a review of existing data formats wasundertaken and their relevance to ngsim was assessed. The review included data standards developed for intelligent transportation systems (ITS), data formats developed spe-cifically for traffic simulation models and data formats developed for broader transporta-tion applications. The specified data formats were developed with the objective of pro-moting efficient research by maintaining consistency between data collection andresearch, and providing consistent storage and transmittal protocols. On the other handthis plan intentionally avoids overspecification of data formats, so as to minimize unnecessary limitations to researchFour data format components were specified in this document, including: 1)data model,2)data dictionary, 3 )metadata, and 4) data exchange formatNGSIM Data Model- The conceptual data model for NGSIM data formats is pre-sented by means of Unified Modeling Language() class diagrams. Used in con-junction with the data dictionary, the data model allows for construction of a formaldatabase/repository for NGSIM validation dataNGSIM Data Dictionary This provides definition of individual data elementsrequired by NGsim. It follows the data standard prescribed by P1489-1999 formatdeveloped by the Institutc of Elcctrical and Electronics Engineers(ieee)NGSIM Data Exchange Format- The data cxchange structure dcfincs how datashould be transferred from user to user or from the database /repository to users. Thisdocument specifies the framework for developing data exchange formats by providingthe data model and the data dictionary; it also provides clear guidance on the formatstandards with which the data exchange format should conform Currently it doesnot provide specific schema for the data exchange formatsNGSIM Metadata- This includes both traditional metadata(definitions, specificationsand valid value lists for data elements and general information about the dataset andits availability); and processing metadata(what has happened to the data from data col-lection to data archival). Administrative metadata formats were adapted fromContent Standard for Digital Geospatial Metadata(FGDC-STD-001-1998), developedby the Federal Geographic Data Committee(FGDC). Recommendations for NGSiMprocessing metadata are based on the guidance provided in ASTM E2259-03, devel-oped by the American Society for Testing and Materials(ASTm)1.0 INTRODUCTIONThe objectives of the NGsim program include the followingDevelopment of a core set of open behavioral algorithms in support of traffic simulation with a primary focus on microscopic modelingCollection of extensive data that will be used for estimation calibration and validationof the core behavioral algorithms; and storing the data in a repository that can be uni-versally accessedThe High-Level Plan for DatasetsTask E3)identified different kinds of traffic data col-lection methods and technologies and recommended three kinds of data collection effortsfor ngsim, including vehicle trajectory data wide area detector data and instrumentedvehicle dataThis report Task F)presents the documentation, format structure, and transfer requirements for the ngsim data formats for these data collection efforts identified in task e3This report is organized as followsExecutive Summary -Provides an executive summary of this documentSection1.0-Provides an overview and introduction to this report, including the con-text of the data format plan within NGsIM, information on NGsim data collection anddata types, information on data conversion, general information on data formats, anda summary of available transportation data formats and their relevance for ngsimSection 2.0-Presents definitions and categorization for different data types, and pro-vides ngsim data requirementsSection 3.0-Presents data format recommendations for the NGsim program,including a data model, data elements for the data dictionary, metadata to describe thedata collection effort and data exchange formatsReferences-Presents references used in developing this data format planAppendix a-Presents a review of existing transportation data formatsAppendix B-Presents accuracy requirements for NGSiM data collectionAppendix C- Presents a UML representation of the ngsim data modelAppendix D-Presents a high-level NGSIM data dictionaryAppendix E- Presents metadata categories, dictionary, and recommended metadataformats for ngsim1.1 HIGH-LEVEL PLAN CONTEXTInterdependencies among NGSIM tasks are shown in figure 1. The High-Level Plan forDatasets(Task E. 3) presents an assessment of existing datasets of potential use for NGSIM,and makes recommendations on the focus for nGsim data collection methodologies. Thisreport on the data Format Plan task f) provides recommendations on the data exchangeformat(s) for NGSIM data collection efforts. The data formats are also influenced by theHigh-Level Verification and Validation Plan(task e 2)Task E 1-1Core algorithmAssessmentTask e,3Task e.1-2Task e2High-LevelCore AlgorithmHigh-Level Verificationlan for DatasetsPlanandⅤ alidation planTask eData format planFigure 1 Diagram. NGSIM task interdependencies.1.2 BACKGROUNDThe NGSiM field data collection effort pursues data required for developing, estimating,calibrating and validating traffic behavioral algorithms. Tactical route execution, opera-tional driving, and en-route strategic traveler behaviors were identified as the focus of theNGSIM core behavioral algorithm research in the identification and prioritization of coreAlgorithms Task D)report. The High-Level Verification and Validation Plan(task e2)provides an example of the data collection datasets for each algorithm category as shownin table 1. the table illustrates the extent over which data must be collected for each levelof algorithm. For example, for operational driving algorithms, a single stretch of roadwayon a freeway will likely be sufficient, while, for development of tactical driving algo-rithms, the data collection effort should be expanded to include the freeway section andmultiple entry and exit ramps that feed the freeway. The data formats developed in thisplan address the data, both static and dynamic, that are pertinent to the data collectionefforts necessary for developing and validating all three categories of driver behavioralalgorithms4