Ucinet_6_安装使用指南(睿驰原创)

Visual SourceSafe 6.0使用手册首都师范大学教育技术系方海光目录1Visual SourceSafe 6.0简介 (3)2Visual SourceSafe 6.0 安装 (3)3Visual SourceSafe 6.0基本使用 (8)3.1 主界面介绍 (8)3.2 基本使用 (8)4Visual SourceSafe与Visual Studio .NET的集成 (15)(1) 将解决方案添加到VSS (15)(2) 从VSS打开项目 (16)(3) 其他基本操作 (17)1Visual SourceSafe 6.0简介专业软件开发需要一个合理的过程来管理开发环境下对每一个应用程序的源代码所做的修改。

Microsoft Visual SourceSafe可以在系统、项目及文件的级别保留修改历史记录，这使用户可以安全地在众多程序员中分配开发任务，跟踪文件的修改，恢复单个文件或者整个项目的老版本。

代码是一种宝贵的资源，绝大多数开发人员使用一些版本控制系统来保护代码文件，防止文件遭到非法修改和出现意外错误。

这些系统可能是一些有关修改注解和保存老版本的基本协议，也可能是那些自动跟踪所有修改和历史记录的复杂的软件系统。

在单一源文件情况下，这些源代码控制系统绝大多数可以很好地工作。

但是，它们都几乎无法在文件之间建立联系。

这在Windows环境中可能造成问题，因为Windows环境的一个应用程序可能包括了多个可执行文件，以及由许多不同的源文件生成的动态链接库，这些源文件可能依次会被其他应用程序重用。

今天，管理源文件之间的关系与保护这些源文件自身内容同样重要。

通过混合了项目管理和源代码控制两项任务，Microsoft Visual SourceSafe版本控制系统解决了这一问题。

Visual SourceSafe以既注重源文件，又注重项目文件的方式，为那些面向文件的标准源代码控制系统难以解决的问题，提供了一流的解决方案。

Qualnet 安装方法以wiki上假设的安装路径为例。

（1）首先，将qualnet压缩包QUP.tar.gz，安放到/opt/的目录下。

然后在命令行中操作，进入到/opt/目录下，然后进行解压。

解压命令：tar -zxf QUP.tar.gz（作者使用的qualnet的压缩包是C4net.tar.gz，实际操作中，压缩包安放的目录可自行选择。

）（2）命令行中操作，进入到/opt/QUP/main目录下。

使用命令清理可执行文件（后缀为.o的文件）。

清理命令：make clean注：使用C4net的压缩包时，在执行上述命令时，需要先将其中military目录下的可执行文件，复制出来，待清理完成后，再重新复制过去。

可执行文件在其中的src/子目录下的和mgen4/子目录下。

然后重新编译生成可执行文件。

编译命令：make（3）make编译之前，需要安装gcc，g++等编译所需工具，否则无法编译。

安装命令：sudo apt-get install build-essential（4）编译过程中，可能因为缺少某些文件而中断编译，根据显示的错误，安装缺少的文件，然后继续使用make命令编译。

在此，列出了作者安装QUP时出现的缺少文件的错误和处理方式。

读者在安装时，可能出现的错误也大概就是这些。

错误一：如图所示，缺少pcap.h这个文件，之后进行相应安装。

安装命令：sudo apt-get install libpcap-dev图片中所示命令没有sudo，是因为使用了超级用户权限root。

在安装编译过程中，最好不使用超级用户权限，因为在安装成功后，普通管理员用户可能因没有权限无法使用qualnet命令，造成不必要的麻烦。

错误二：缺少libnet.h文件。

安装命令：sudo apt-get install libnet-dev错误三：缺少-lexpat。

安装命令：sudo apt-get install libexpat1-dev另，作者在安装C4net时，还出现“缺少libxml等文件”的错误，也是进行相应安装。

ＵＳＰ－ＳｅｃＮＥＴ　门禁管理软件使用说明书 ＮＩＴＲＯ　ＳｅｃＮＥＴ网络门禁控制系统　ＮＡＣ８０００Ｎ门禁控制器　注：在安装配置ＮＡＣ８０００Ｎ门禁控制器前请仔细阅读手册　（编号　：　ＳＥＣＮ－１００１１５Ｖ３．５－ＣＨ）　目 录　第1章产品介绍 (5)1.1.前言 (5)1.2.软件版本选择 (5)1.3.产品特点 (6)第2章系统安装 (7)2.1.门禁控制器（NAC8000N）安装 (7)2.2.TCP/IP网络连接 (8)２．２．１．直连电缆 (8)２．２．２．交叉连接电缆 (9)P SECNET系统安装环境要求 (9)2.4.MSDE数据库安装 (9)P SECNET门禁管理系统安装 (10)2.6.数据库设置 (10)2.7.注册软件 (11)2.8.软件版本查看 (12)2.9.系统登录 (12)第3章系统设置 (14)3.1.操作菜单介绍 (14)3.2.连接控制器 (15)3.2.1.网络连接 (15)3.2.2.快速配置向导 (16)3.2.3.添加控制器 (17)3.3.控制器 (18)3.3.1.控制器名称与MAC地址编辑 (19)3.3.2.读卡器设置 (19)3.3.3.出门按钮与门磁输入设置 (20)3.3.4.防拆与火警设置 (21)3.3.5.输出端子（继电器）设置 (21)3.3.6.网络和GTM（时区）设置 (22)3.3.7.控制器高级选项设置 (23)3.4.门设置 (23)3.4.1.门的新建方式 (24)3.4.2.常规功能设置 (24)3.4.3.事件设置 (26)3.4.4.高级选项 (27)3.4.5.报警系统联动 (28)3.4.6.视频系统联动 (29)3.5.门禁控制计划 (30)3.5.1.日期 (30)3.5.2.日期分组 (31)3.5.3.时段 (31)3.5.4.时段分组 (32)3.5.5.通行级别 (33)3.6.部门设置 (33)3.7.持卡人设置 (34)3.7.1.持卡人的添加 (34)3.7.1.1.自动添加 (34)3.7.1.2.手动添加方式 (36)3.7.1.3.文本添加方式 (36)3.7.2.持卡人的编辑和删除 (39)3.7.2.1.持卡人编辑 (39)3.7.2.2.按部门编辑 (40)3.7.2.3.删除持卡人 (40)3.7.2.4.按部门删除 (41)3.7.2.5.导出姓名卡号列表 (41)3.7.3.持卡人考勤分析 (41)3.7.4.持卡人图片回放 (42)3.8.电子监控图 (42)3.9.事件视图 (44)3.10.系统用户管理 (49)3.11.数据库 (50)3.12.卡格式定义 (54)3.13.定义考勤项目 (55)3.14.考勤事务处理 (57)3.15.区域人员统计 (61)3.16.视频设备 (61)3.17.报表 (62)第4章系统工具 (67)4.1.出勤数据分析 (67)4.2.设置与维护数据库 (73)4.3.工厂工具 (73)4.4.语言工具 (76)4.5.操作记录浏览 (76)4.6.快速设置向导 (78)第1章　产品介绍1.1.前言ＮＩＴＲＯ　ＵＳＰ　ＳｅｃＮＥＴ不但是一款智能门禁管理系统，还是一套专业的考勤系统。

UCINET是一款社会网络分析软件，用于绘制和分析社会网络图，以下是UCINET的基本操作手册：1. 打开UCINET软件双击UCINET图标，即可打开软件。

2. 创建新的网络图在UCINET主界面中，点击“File”菜单，选择“New Graph”创建新的网络图。

3. 添加节点和边在UCINET主界面中，点击“Graph”菜单，选择“Add Nodes and Edges”添加节点和边。

在弹出的窗口中，输入节点和边的属性，如名称、关系等。

4. 添加标签在UCINET主界面中，点击“Graph”菜单，选择“Add Labels”添加标签。

在弹出的窗口中，选择节点或边，输入标签信息。

5. 绘制网络图在UCINET主界面中，点击“Graph”菜单，选择“Draw Graph”绘制网络图。

在弹出的窗口中，选择绘制方式和样式，点击“Draw”按钮即可绘制网络图。

6. 导出网络图在UCINET主界面中，点击“File”菜单，选择“Export Graph”导出网络图。

在弹出的窗口中，选择导出格式和路径，点击“Export”按钮即可导出网络图。

7. 删除节点和边在UCINET主界面中，点击“Graph”菜单，选择“Delete Nodes and Edges”删除节点和边。

在弹出的窗口中，选择要删除的节点和边，点击“Delete”按钮即可删除。

8. 保存网络图在UCINET主界面中，点击“File”菜单，选择“Save Graph”保存网络图。

在弹出的窗口中，选择保存路径和格式，输入网络图名称，点击“Save”按钮即可保存网络图。

以上是UCINET的基本操作手册，如果需要更详细的操作指南，可以参考UCINET的官方文档或在线教程。

UCINet操作步骤：1数据导入准备好Excel数据表Data- spreadsheets- matrix出现一个数据表，直接拷入或输入保存文件，出现两个文件，文件名后缀分别为##h和##d（注意表中数值与类目名、项目名的区别）（后缀##d的文件可能仅是后台记录文件，如删除则出错，操作时不需要用）另一种导入数据方法（待验证）：准备好Excel数据表Data-Import via spreadsheet-full matrix w/ multiple sheet选择Excel数据，确认导入数据，保存文件，文件名后缀为##h2计算中心度Network-centrality-degree选择后缀为##h的数据文件，确定输出文件名freemandegree（或其他文件名），点 ok输出文本文档，显示中心度的计算及各种描述性统计指标，关闭得到两个文件，文件名为freemandegree,后缀分别为##h和##d（选degree是计算最简单的度数中心度）（后缀##d的文件可能仅是后台记录文件，如删除则出错，操作时不需要用）3可视化Netdraw,进入可视化界面File-open-ucinet dataset-network,打开后缀为##h 数据文件File-open-ucinet dataset-attribute data,打开后缀为##h的经计算中心度的文件，文件名为freemandegree,将节点的属性与节点对应起来（这步不要：Analysis-centrality measures-选择要分析的中心度类别-确定节点大小设置的依据，如degree,点ok）4调整图像节点的大小、形状、颜色可以依据点的中心度属性，如节点大的表示中心度大Propoties-nodes-symbols-size/color/shape-attribute based,选择某个中心度（注意有时候有两个degree,注意区分）节点的标注的大小、颜色可以依据节点的中心度属性Propoties-nodes-labels-size/color -attribute based线表示节点之间的联系，在最简单的度数中心度中表示二者间的合作次数线的粗细、颜色可以依据合作次数显示,线的显示也可以在某一阈值之上的显示, 阈值之下（合作次数低）的不显示右下角设置连线显示阈值设置线宽：Propotics-lincs-sizc-tic strength,设置最小线宽和最大线宽设置线的颜色：右下角阈值设为0■颜色为黑-dn,阈值为20-颜色褐-dn,阈值30- 颜色绿-dn, ......最后阈值为（），全部显示，则有不同根据联系强度（合作次数）设置的颜色5保存出图保存图：file-save diagram as-选择不同图的格式保存以后能打开的图文件：file-save data as-vna-complete-选择不同保存范围，选择保存全部节点和关系，如果不保存全部节点和关系，那么下次打开就只有保存时显示的部分再次打开图文件：file-open-vna text file-complete-ok微生物农药研究发文量前50国家的合作网络图图1节点大小代表度数中心度，就是根据合作次数计算的中心度的大小，连线数量代表合 作次数Porti *Pdk^t anKorea,N orway•ranc i CsraeiPotend1i ■CzechRepubfcTunisiaJusso •Mahys anbndle w ZeaiaCotocnbe图3棕色连线代表合作次数大于大于30次。

UCINET Quick Start GuideThis guide provides a quick introduction to UCINET. It assumes that the software has been installed with the data in the folder C:\Program Files\Analytic Technologies\Ucinet 6\DataFiles and this has been left as the default directory.When UCINET is started the following window appears.Change default directory button Current default directoryThe submenu buttons give access to all of the routines in UCINET and these are grouped into File, Data, Transform, Tools, Network, Visualize, Options and Help. Note that the buttons located below these are simply fast ways of calling routines in the submenus. The default directory given at the bottom is where UCINET picks up any data and stores any files (unless otherwise specified) this directory can be changed by clicking on the button to the right.Running a routineTo run a UCINET routine we usually need to specify a UCINET dataset and give some parameters. Where possible UCINET selects some default parameters which the user can change if required. Note that UCINET comes with a number of standard datasets and these will be located in the default directory. When a routine has been run there is some textual output which appears on the screen and usually a UCINET datafile contain the results that again will be stored in the default directory.We shall run the degree centrality routine to calculate the centralities of all the actors in a standard UCINET dataset called TARO. First we highlight Network>Centrality>Degree and then clickThis will bring up a box as followsIf you click on the help button then a help screen will open which looks like this. The help file gives a detailed description of the routine, explains the parameters and describes the output that will appear in the log file and on the screen.Close the help file and either by clicking on the pickfile button or by typing the name select the TARO data for analysis as follows.Now click OK to run the routine to obtain the following.This is a text file giving the results of the routine. Note you can scroll down to see more of the file. This file can be saved or copied and pasted into a word processing package. When UCINET is closed this file will be deleted. Close this file.Note when the program was run we also created a new UCINET file called FreemanDegree. We can look at the new UCINET file using the Display dataset button. This is the D button that appears just below the Tools submenu (see the first diagram). Clicking on the D goes straight to the open file menu and bypasses some of the display options that are available if you used Data>Display. Click on display and select FreemanDegree. You should get the followingNote that this file has all the measures of centrality (but not sorted as in the text output) but does not have the descriptive statistics produced in the log file.Using the spreadsheet editorThe spreadsheet editor can be used to amend any data or enter new data. It is also very useful for transferring UCINET data (such as centrality scores) to Microsoft Excel or SPSS. Note that the dl format provides a more sophisticated and flexible way of entering data and this is not covered in this introductory guide. If you click the spreadsheet button or under data run the data editors and click on matrix editor you will open up the spreadsheet editor and obtain the following. Note we have annotated the important buttons and areas of the editor below.To see what a dataset looks like in the editor click file then open and select PADGETT. This is a non-symmetric binary data set with two relations and labels. Once open it will look like this. Symmetric mode copies cell values into other half Set the network or matrix size hereWe see the two relations PADGM and PADGB in the bottom left, clicking on the tabs changes sheet and we are viewing different relations. The labels are repeated along the rows and columns and are in the shaded area. We see the data has 16 actors as shown by the dimensions box on the right. This data can be edited and saved from the spreadsheet.Running NetdrawClick on the Netdraw button to launch Netdraw. This results in a new window which looks likeTo use Netdraw it is important to load in a network first. We shall load in a standard UCINET dataset collected by Dave Krackhardt. Click on the load a file button and type or select the file Krack-High-TecThen click OK and you should see something like this. Click on the Rels tab indicated here.You will now see this data has three relations Advice, Friendship and Reports to. If a relation is ticked then the edges relating to it are displayed. We shall now bring in an attribute file associated with this data called High-Tec-Attributes. Click on the load a file button again load the file but also click the radio button for node attributes under Type of Data so you haveNote you can also click the button just to the right of the load button (with an A) and this will open up the same box but with the attribute button selected. Click on Transform> Node attribute editor and you will see the node attribute editor open up as follows.You can use this editor to change or add in new attributes.We are going to size the nodes by age, colour them by department and shape them according to level. Close the attribute editor and click on the colour node button. This will open the color box click the select attribute button and select department as followsThis will give 5 colours for the five departments. Now click on the change shape of nodes button and go through the same process but selecting level and clicking on the tick at the bottom of the box. This will produce three shapes. To size the nodes according to age you need to selectProperties>Nodes>Symbols>Size>Attribute-Based and then select Age leaving the other values as defaults. This should result in the following.To export the diagram for use in a publication or to read into a word processing package useFile>Save Diagram As>Metafile. To save the diagram as a file you can see again in Netdraw you need to use File>Save Data As>Vna.Using the dl editor in UCINETThe UCINET spreadsheet editor is useful for making changes or for constructing small networks but is not well suited for importing larger datasets in which the data is not typically arranged in an adjacency matrix format. UCINET supports a variety of data formats that are accessed through an editor called the dl editor which is launched by pressing the button to the right of the spreadsheet editor in UCINET which looks like thisLaunch dl editorby clicking thisbutton10When the editor is launched it will contain a small help screen this relates to the info tab. You should click the data tab to obtain the following.Click the data tab to revealthe spreadsheetData format selectionThere are a number of data formats supported but we will just look at two. The data formats can be selected from a pull down list by clicking the arrow to the right of the data format selection box. The full matrix is the same as using the normal spreadsheet editor. Our first format is called nodelist (1mode), this format lists each node followed by the nodes it is adjacent to. The following is an example note we have clicked the force symmetry box in the output options.The first number in each row gives the starting node of an edge the numbers that follow in the same row are a list of end nodes. Hence the first row 1 3 4 5 states that actor 1 is connected to actors 3, 4 and 5. The second row states that actor 5 is connected to actor 6 and so on. Note that there is no order amongst the rows nor within the rows. Actor 2 has no end nodes listed and hence is an isolate. The network corresponding to this linked list is given below.Note that the entries in the spreadsheet are labels and so we can use names rather than numbers. If the data is directed then the arc goes from the start node to the end node. The following is an example showing a directed network with labels.If the data is valued then we cannot use the nodelist (1 mode) format; an alternative is the edgelist (1-mode) format. This format has three entries per line and is of the form start node, end node , value. The following is an example.In this example we see that Martin has a connection to Steve with a value of 5. It should be noted that the data in the spreadsheet cannot be saved except as a UCINET file and hence it is a good ideato construct these in an excel spreadsheet and copy and paste or import them. Once the entry is complete the file can be saved in UCINET by clicking the File button and selecting Save UCINETdataset. To clear the spreadsheet click the on the top left hand side.There are many features of UCINET and Netdraw that we have not mentioned but hopefully this guide will get you started.。