GSM (Global System for Mobile communications: originally from Groupe Spécial Mobile) is the most popular standard for mobile phones in the world. Its promoter, the GSM Association, estimates that 80 of the global mobile market uses the standard.[1] GSM is used by over 3 billion people across more than 212 countries and territories.[2][3] Its ubiquity makes international roaming very common between mobile phone operators, enabling subscribers to use their phones in many parts of the world
标签: Mobile communications originally Global
上传时间: 2017-07-15
上传用户:电子世界
In number theory, the Euclidean algorithm (also called Euclid s algorithm) is an algorithm to determine the greatest common divisor (GCD) of two elements of any Euclidean domain (for example, the integers). Its major significance is that it does not require factoring the two integers, and it is also significant in that it is one of the oldest algorithms known, dating back to the ancient Greeks.
标签: algorithm Euclidean Euclid number
上传时间: 2017-07-17
上传用户:恋天使569
The Fuzzy Logic Toolbox™ product extends the MATLAB® technical computing environment with tools for designing systems based on fuzzy logic. Graphical user interfaces (GUIs) guide you through the steps of fuzzy inference system design. Functions are provided for many common fuzzy logic methods, including fuzzy clustering and adaptive neurofuzzy learning.
标签: environment computing technical Toolbox
上传时间: 2013-12-29
上传用户:fandeshun
Professional MFC. Chapter 1: The Microsoft Developer Studio Chapter 2: The Wizards and The Gallery Chapter 3: The Application Architecture Hierarchy Chapter 4: The Document/View Architecture Chapter 5: Using Dialogs and Controls in MFC Chapter 6: User Interface Issues Chapter 7: Advanced User Interface Programming Chapter 8: Using the Windows Common Controls Chapter 9: Writing Programs for the Windows Shell Chapter 10: Utility and Exception Classes Chapter 11: Writing Multithreaded Applications with MFC Chapter 12: Creating Dynamic-link Libraries Chapter 13: Writing Database Applications Chapter 14: Writing OLE Containers Chapter 15: Writing OLE Servers Chapter 16: ActiveX Controls Chapter 17: ActiveX Control Containers Chapter 18: Internet Client Programming Chapter 19: Internet Server Programming Appendix A: Installing Visual C++
标签: Chapter The Professional Developer
上传时间: 2017-08-20
上传用户:dragonhaixm
RSA ( Rivest Shamir Adleman )is crypthograph system that used to give a secret information and digital signature . Its security based on Integer Factorization Problem (IFP). RSA uses an asymetric key. RSA was created by Rivest, Shamir, and Adleman in 1977. Every user have a pair of key, public key and private key. Public key (e) . You may choose any number for e with these requirements, 1< e <Æ (n), where Æ (n)= (p-1) (q-1) ( p and q are first-rate), gcd (e,Æ (n))=1 (gcd= greatest common divisor). Private key (d). d=(1/e) mod(Æ (n)) Encyption (C) . C=Mª mod(n), a = e (public key), n=pq Descryption (D) . D=C° mod(n), o = d (private key
标签: crypthograph information Adleman Rivest
上传时间: 2017-09-01
上传用户:chfanjiang
This book is about writing TinyOS systems and applications in the nesC language. This chapter gives a brief overview of TinyOS and its intended uses. TinyOS is an open-source project which a large number of research universities and companies contribute to. The main TinyOS website, http://www.tinyos.net, has instructions for downloading and installing the TinyOS programming environment. The website has a great deal of useful information which this book doesn’t cover, such as common hardware platforms and how to install code on a node.
标签: This applications language chapter
上传时间: 2017-09-04
上传用户:253189838
关于后缀数组的文件 本文介绍后缀数组的基本概念、方法以及应用。 首先介绍O(nlogn)复杂度构造后缀数组的倍增算法,接着介绍了配合后缀 数组的最长公共前缀 LCP(Longest Common Prefix)的计算方法,并给出一个 线性时间内计算height 数组(记录跨度为1 的LCP 值的数组)的算法。为了让 读者对如何运用后缀数组有一个感性认识,还介绍了两个应用后缀数组的例子: 多模式串的模式匹配(给出每次匹配O(m+logn)时间复杂度的算法)以及求最 长回文子串(给出O(nlogn)时间复杂度的算法)。最后对后缀数组和后缀树作了 一番比较。
上传时间: 2013-12-21
上传用户:zhangliming420
第一节、samba是干什么的?它有什么用? Samba(SMB是其缩写) 是一个网络服务器,它是Linux作为本地服务器最重要的一个服务,用于Linux和Windows共享文件之用;Samba可以用于Windows和 Linux之间的共享文件,也一样用于Linux和Linux之间的共享文件;不过对于Linux和Linux之间共享文件有更好的网络文件系统 NFS,NFS也是需要架设服务器的; 2、安装及服务操作命令 安装samba程序非常简单,使用rpm -q samba查看当前系统是否已经安装了samba软件。 如果没有那就进入光盘,rpm -ivh *samba*.rpm即可。 仔细说下安装的包: samba-common-3.0.28-0.el5.8 //samba服务器和客户端中的最基本文件 samba-3.0.28-0.el5.8 //samba服务器核心软件包 system-config-samba-1.2.39-1.el5 //samba图形配置界面 samba-client-3.0.28-0.el5.8 //samba客户端软件 启动、暂停和停止服务: /etc/init.d/smb start /etc/init.d/smb stop /etc/init.d/smb restart 或 service smb start service smb stop service smb restart 第二节、由最简单的一个例子说起,匿名用户可读可写的实现 第一步: 更改smb.conf 我们来实现一个最简单的功能,让所有用户可以读写一个Samba 服务器共享的一个文件夹;我们要改动一下smb.conf ;首先您要备份一下smb.conf文件; [root@localhost ~]# cd /etc/samba [root@localhost samba]# cp smb.conf smb.conf.bak [root@localhost samba]# vi smb.conf 或geidt smb.conf & 然后我们把下面这段写入smb.conf中: [global] workgroup = WORKGROUP netbios name = Liukai server string = Liukai's Samba Server security = share [test] path = /opt/test writeable = yes browseable = yes guest ok = yes 注解: [global]这段是全局配置,是必段写的。其中有如下的几行; workgroup 就是Windows中显示的工作组;在这里我设置的是WORKGROUP (用大写); netbios name 就是在Windows中显示出来的计算机名; server string 就是Samba服务器说明,可以自己来定义;这个不是什么重要的; security 这是验证和登录方式,这里我们用了share ;验证方式有好多种,这是其中一种;另外一种常用的是user的验证方式;如果用share呢,就是不用设置用户和密码了; [test] 这个在Windows中显示出来是共享的目录; path = 可以设置要共享的目录放在哪里; writeable 是否可写,这里我设置为可写; browseable 是否可以浏览,可以;可以浏览意味着,我们在工作组下能看到共享文件夹。如果您不想显示出来,那就设置为 browseable=no,guest ok 匿名用户以guest身份是登录; 第二步:建立相应目录并授权 [root@localhost ~]# mkdir -p /opt/test [root@localhost ~]# id nobody uid=99(nobody) gid=99(nobody) groups=99(nobody) [root@localhost ~]# chown -R nobody:nobody /opt/test 注释:关于授权nobody,我们先用id命令查看了nobody用户的信息,发现他的用户组也是nobody,我们要以这个为准。有些系统nobody用户组并非是nobody ; 第三步:启动服务器 第四步:访问Samba 服务器的共享; 1、在Linux 中您可以用下面的命令来访问; [root@localhost ~]# smbclient -L //liukai或 smbclient //192.168.0.94/test Password: 注:直接按回车 2、在Windows中,您可以用下面的办法来访问; \\liukai 或 \\192.168.0.94 3、说明:如果用了netbiosname,就可以用“\\主机名”来访问,如果没用netbiosname,就不能用主机名访问。 第三节、简单的密码验证服务器 修改smb.conf文件: security = user guest account = liukai encrypt passwords = yes smb passwd file = /etc/samba/smbpasswd 然后,建立一个新用户 useradd liukai passwd liukai 成功后,cat /etc/passwd | mksmbpasswd.sh > /etc/samba/smbpasswd smbpasswd -a liukai 这就成功地添加了一个smb用户。 重启服务,使用这个用户进行登录即可。
上传时间: 2015-05-13
上传用户:yangkang1192
matlab有限元网格划分程序 DistMesh is a simple MATLAB code for generation of unstructured triangular and tetrahedral meshes. It was developed by Per-Olof Persson (now at UC Berkeley) and Gilbert Strang in the Department of Mathematics at MIT. A detailed description of the program is provided in our SIAM Review paper, see documentation below. One reason that the code is short and simple is that the geometries are specified by Signed Distance Functions. These give the shortest distance from any point in space to the boundary of the domain. The sign is negative inside the region and positive outside. A simple example is the unit circle in 2-D, which has the distance function d=r-1, where r is the distance from the origin. For more complicated geometries the distance function can be computed by interpolation between values on a grid, a common representation for level set methods. For the actual mesh generation, DistMesh uses the Delaunay triangulation routine in MATLAB and tries to optimize the node locations by a force-based smoothing procedure. The topology is regularly updated by Delaunay. The boundary points are only allowed to move tangentially to the boundary by projections using the distance function. This iterative procedure typically results in very well-shaped meshes. Our aim with this code is simplicity, so that everyone can understand the code and modify it according to their needs. The code is not entirely robust (that is, it might not terminate and return a well-shaped mesh), and it is relatively slow. However, our current research shows that these issues can be resolved in an optimized C++ code, and we believe our simple MATLAB code is important for demonstration of the underlying principles. To use the code, simply download it from below and run it from MATLAB. For a quick demonstration, type "meshdemo2d" or "meshdemond". For more details see the documentation.
标签: matlab有限元网格划分程序
上传时间: 2015-08-12
上传用户:凛风拂衣袖
#include <hidef.h> /* common defines and macros */ #include "derivative.h" /* derivative-specific definitions */ #include <mc9s12xs128.h> //定义PID参数 #define VV_KPVALUE 3 //比例 #define VV_KIVALUE 40 //积分 #define VV_KDVALUE 3 //微分 #define VV_MAX 10000 //返回的最大值,是pwm的周期值 #define VV_MIN 0 #define VV_DEADLINE 0X08 //速度PID,设置死区范围 typedef struct PID //定义数法核心数据 { signed int vi_Ref; //速度PID,速度设定值 signed int vi_FeedBack; //速度PID,速度反馈值
上传时间: 2016-04-27
上传用户:547453159
