verilog编写的1024点的fft快速傅立叶变换代码

英文原版包括SAE+J1939-01-2000，SAE+J1939-11-1999，SAE+J1939-13-2004，SAE+J1939-15-2003，SAE+J1939-21-2001，SAE+J1939-31-2004，SAE+J1939-71-2006，SAE+J1939-73-2004，SAE+J1939-74-2004，SAE+J1939-75-2002，SAE+J1939-81-2003，SAE+J1939-2005共12份文档。中文版包括SAE 1939_Appendix，SAE J1939，SAE J1939-01，SAE J1939-11，SAE J1939-13，SA

用Matlab实现的bp算法程序用Matlab实现的bp算法程序用Matlab实现的bp算法程序用Matlab实现的bp算法程序用Matlab实现的bp算法程序

工具箱的安装：将Matlab_Robotic_Toolbox_v9.8.rar解压后，放在matlab的安装目录下，最好是放在toolbox文件夹里，利用matlab的工具栏的setpath,将文件夹Matlab_Robotic_Toolbox_v9.8vctools设置为matlab的搜索目录，在command window输入“startup_rvc”，安装工具箱。最后，你可以在command window输入“ver”，查看机器人工具箱是否已经安装成功了。command window会列出所有的工具箱，其中Robotics Toolbox已经包含在里面。

用Qt开发的flappy bird。windows平台下已ok，安卓下有分辨率的问题，而且比较卡，在优化。

自己开发的一套环境调用ZPL命令控制斑马打印机的源码demo，开发环境vs2010 .net4.0，，支持中文打印、条码打印

主要功能记录行走的步数，行走的时间根据录入的体重，步长可以计算出每天行走的历程，消耗的热量对每天行走的历程进行记录，并给出星级评价软件原理判断人是否处于行走中，主要从以下几个方面判断：人如果走起来了，一般会连续多走几步。因此，如果没有连续4-5个波动，那么就极大可能是干扰。人走动的波动，比坐车产生的波动要大，因此可以看波峰波谷的高度，只检测高于某个高度的波峰波谷。人的反射神经决定了人快速动的极限，怎么都不可能两步之间小于0.2秒，因此间隔小于0.2秒的波峰波谷直接跳过通过重力加速计感应，重力变化的方向，大小。与正常走路或跑步时的重力变化比对，达到一定相似度时认为是在走路或跑步

最优控制是在一定的约束条件下，从已给定的初始状态出发， 确 定最优控制作用的函数式，使目标函数为极小或极大。在设计最优控制器的过程中，运用MATLAB最优控制设计工具，会大大减小设计的复杂性。 运用Matlab语言编制程序，并用GUI设计可视化界面,设计最优控制系统。

考虑自平衡能力的并网型微电网多目标容量优化设计nsga2算法matlab实现

系统辨识大牛Ljung编写的MATLAB系统辨识使用手册，这本书详细地介绍了在MATLAB已经所属simulink环境下，系统辨识工具箱的一些使用办法，是一本非常经典的教材！Revision Historypril 1988First printingJuly 1991Second printingMay1995Third printingNovember 2000 Fourth printingRevised for Version 5.0(Release 12)pril 2001Fifth printingJuly 2002Online onlyRevised for Version 5.0.2 Release 13)June 2004Sixth printingRevised for Version 6.0.1(Release 14)March 2005Online onlyRevised for Version 6.1.1Release 14SP2)September 2005 Seventh printingRevised for Version 6.1.2(Release 14SP3)March 2006Online onlyRevised for Version 6.1.3(Release 2006a)September 2006 Online onlyRevised for Version 6.2 Release 2006b)March 2007Online onlyRevised for Version 7.0 ( Release 2007a)September 2007 Online onlyRevised for Version 7.1 (Release 2007bMarch 2008Online onlyRevised for Version 7.2(Release 2008a)October 2008Online onlyRevised for Version 7.2.1 Release 2008b)March 2009Online onlyRevised for Version 7.3(Release 2009a)September 2009 Online onlyRevised for Version 7.3.1(Release 2009b)March 2010Online onlyRevised for Version 7. 4 (Release 2010a)eptember2010 Online onlyRevised for Version 7.4.1(Release 2010b)pril 2011Online onlRevised for Version 7.4.2(Release 2011a)September 2011 Online onlyRevised for Version 7.4.3(Release 2011b)March 2012Online onlyRevised for Version 8.0( Release 2012aabout the DevelopersAbout the Developersystem Identification Toolbox software is developed in association with thefollowing leading researchers in the system identification fieldLennart Ljung. Professor Lennart Ljung is with the department ofElectrical Engineering at Linkoping University in Sweden. He is a recognizedleader in system identification and has published numerous papers and booksin this areaQinghua Zhang. Dr. Qinghua Zhang is a researcher at Institut Nationalde recherche en Informatique et en Automatique(INria) and at Institut deRecherche en Informatique et systemes Aleatoires (Irisa), both in rennesFrance. He conducts research in the areas of nonlinear system identificationfault diagnosis, and signal processing with applications in the fields of energyautomotive, and biomedical systemsPeter Lindskog. Dr. Peter Lindskog is employed by nira dynamiAB, Sweden. He conducts research in the areas of system identificationsignal processing, and automatic control with a focus on vehicle industryapplicationsAnatoli Juditsky. Professor Anatoli Juditsky is with the laboratoire JeanKuntzmann at the Universite Joseph Fourier, Grenoble, france. He conductsresearch in the areas of nonparametric statistics, system identification, andstochastic optimizationAbout the developersContentsChoosing Your System Identification ApproachLinear model structures1-2What Are Model objects?Model objects represent linear systemsAbout model data1-5Types of Model objectsDynamic System Models1-9Numeric Models1-11umeric Linear Time Invariant (LTD Models1-11Identified LTI modelsIdentified Nonlinear models1-12Nonlinear model structures1-13Recommended Model Estimation Sequence1-14Supported Models for Time- and Frequency-DomainData,,,,,,,1-16Supported Models for Time-Domain Data1-16Supported Models for Frequency-Domain Data1-17See also1-18Supported Continuous-and Discrete-Time Models1-19Model estimation commands1-21Creating Model Structures at the command Line ... 1-22about system Identification Toolbox Model Objects ... 1-22When to Construct a Model Structure Independently ofEstimation1-23Commands for Constructing Model Structures1-24Model Properties1-25See als1-27Modeling Multiple-Output Systems ......... 1-28About Modeling multiple-Output Systems1-28Modeling Multiple Outputs Directly1-29Modeling multiple outputs as a Combination ofSingle-Output Models.......1-29Improving Multiple-Output Estimation Results byWeighing Outputs During Estimation ....... 1-30Identified linear Time-Invariant models1-32IDLTI Models1-32Configuration of the Structure of Measured and Noise oRepresentation of the Measured and noise Components foVarious model Types1-33Components ....1-35Imposing Constraints on the Values of ModeParameters1-37Estimation of Linear models1-8Data Import and Processing2「Supported Data ...2-3Ways to Obtain Identification DataWays to Prepare Data for System Identification ... 2-6Requirements on Data SamplingRepresenting Data in MATLAB Workspace·····Time-Domain Data Representation2-9Time-Series Data Representation2-10ContentsFrequency-Domain Data Representation ....... 2-11Importing Data into the Gui2-17Types of Data You Can import into the GUi2-17Importing time-Domain Data into the GUI2-18Importing Frequency-Domain Data into the GUI2-22Importing Data Objects into the GUI ......... 2-30Specifying the data sampling interval2-34Specifying estimation and validation Data2-35Preping data Using Quick StartCreating Data Sets from a Subset of Signal Channelo2-362-37Creating multiexperiment Data Sets in the gUi2-39Managing data in the gui ............. 2-46Representing Time- and Frequency-Domain Data Usingiddata object2-55iddata constructor2-55iddata Properties.........2-58Creating Multiexperiment Data at the Command Line .. 2-61Select Data Channels, I/O Data and Experiments in iddataObjects2-63Increasing Number of Channels or Data Points of iddataObjects2-67Managing iddata Objects2-69Representing Frequency-Response Data Using idfrdObiec2-76idfrd Constructor2-76idfrd Properties2-77Select I/o Channels and Data in idfrd Objects ..... 2-79Adding Input or Output Channels in idfrd Objects2-80Managing idfrd Objects2-83Operations That Create idfrd Objects2-83Analyzing Data quality2-85Is your data ready for modeling?2-85Plotting Data in the guI Versus at the command line2-86How to plot data in the gui2-86How to plot data at the command line2-92How to Analyze Data Using the advice Command2-94Selecting Subsets of Data2-96IXWhy Select Subsets of Data?2-96Extract Subsets of Data Using the GUI2-97Extract Subsets of data at the Command Line2-99Handling Missing Data and outliers2-100Handling missing data2-100Handling outliers2-101Extract and Model Specific Data Segments2-102See also2-103Handling offsets and Trends in Data2-104When to detrend data2-104Alternatives for Detrending Data in GUi or at theCommand-Line2-105Next Steps After detrending2-107How to Detrend Data Using the Gui2-108How to detrend data at the Command line2-109Detrending Steady-State Dat109cending transient Dat2-109See also2-110Resampling Data2-111What Is resampling?...,,.,,,,,,,,,,,.2-111Resampling data without Aliasing Effects2-112See also2-116Resampling data Using the GUi.,,,,2-117Resampling Data at the Command line2-118Filtering Data2-120Supported Filters2-120Choosing to Prefilter Your Data2-120See also2-121How to Filter Data Using the gui2-122Filtering Time-Domain Data in the GuI........ 2-122Content

经典书籍中英文对照，车辆动力学及其控制，Vehicle dynamics and control, 作者Rajesh Rajamani，2006年第一版 本书全面覆盖了在车辆控制系统模型的开发过程中使用到的车辆控制系统及动力学模型，包括巡航控制，自适应巡航控制，ABS, 自动车道保持，自动高速系统，航向角稳定控制，引擎控制，被动主动和半主动悬挂，轮胎-路面摩擦系数估计，防倾翻及混合电力车辆。 仅供阅览