10.6-shortest path

1File文件1.1New...新建1.2Open...打开1.3Close...关闭1.4CloseAll关闭所有1.5Save保存1.6SaveAs...另存为1.7Send...发送1.8Properties...性能1.9OpenWorkspace...打开工作空间1.10Save Workspace As...另存为工作空间1.11ProjectManager...工程管理1.12Print...打印1.13Exit退出2Edit编辑2.1Undo/Can'tundo撤销2.2Redo/Can'tredo重做2.3ClearUndo/Redo清楚撤销/重做2.4Copy复制2.5Paste粘贴2.6Fill..填充.2.7Add Records增加记录2.8DeleteRecords删除记录2.9Delete Set删除选择集2.10Find...查找2.11DrawingActions画图动作2.12Prefernces...页面属性3Map地图3.1Layer...图层管理3.2DisplayManager图层展示管理3.3DuplicateMap复制地图3.4Combine ExistingMaps...合并现有地图3.5Scale...设定比例3.6PreviousScale 前一个比例视图3.7InitialScale最初比例视图3.8Locator...定位3.9Synchronize同步3.10Pan平移3. 10 .1 PanRight向右平移3.Pan 向左平移10.2Left3.10.3Pan Up 向上平移3. 10 .4 PanDown向下平移3.10 .5 Pan Map Toolbox地图平移工具箱3.11Bookmarks书签3. 11 .1 Create...创建书签3.11.2Go To 前往书签3. 11 .3 Manager...书签管理3.12ColorTheme...颜色主题3.13PatternTheme...演示主题3.14Dot-Density Theme...点密度主题3.15ChartTheme...图表主题3.16Scaled-Symbol Theme...比例主题3.17Coloring...着色3.18FeatureDisplay...特征显示3.19PrismMap...三维地图3.20Display Hidden Labels展示隐藏标签3.21Restore AllLabels恢复所有标签3.22RecordVideo录制视频4Dataview数据表4. 1Fields...字段4.Field Sets...字段选择24. 3ColumnSettings...字段属性设置4. 4Sort...排列4.5Sort Sets...排列设置4.6Lock Columns锁定列4.7Transpose...转置4.8Group By...分组4.9Duplicates...复制4. 10Formats...字段格式化4. 11Join...链接表格4.12Drop Join...删除连接4. 13FormulaFields...公式填充字段4. 14SummaryStatistics统计4. 15Import intoMatrix导入到矩阵4. 16Export toMatrix导出矩阵4.17Modify Table更改表格字段4. 18TableStructure表格结构5Selection选择集5.1Settings...选择集5.2Select by Condition...通过条件选择5.3Select byList...通过列表选择5.Select by Related 通过相关数值4Values...选择5. 5Select byLocation...通过位置选择5. 6Select byTheme...通过专题选择5. 7Select byHighlight通过高亮选择？5. 8Select by Adjacency5. 9CombineSelection...合并选择集5. 10SelectCentroids...选择质心5. 11Select ByLinks...通过连接选择5. 12Select ByNodes...基于节点选择6Tools工具6.1Toolbox地理工具箱6.2Selection选择集工具箱6.3Map Editing地图编辑6.4Imagery6.5SurfaceAnalysis地理表面分析6.6DrawingToolbox画图工具箱6.7MapLibrarian...地图库管理器6.8Locate定位6.8.1Locate ByAddress...通过街道地址定位6.8.2Locate By WorldCity...通过世界城市定位6.8.3Locate By Value... 通过数值定位6.8.Locate By 通过坐标定位4 Coordinate...6.8. 5 Locate ByPointing...通过指定点定位6.8. 6 Locate Images by Geotagging…6.8.7Index Locations... 定位索引6. 9GeographicAnalysis地理文件分析6.9.1Merge by Value... 创建地域6.9.2CreateDistricts...创建区域6.9.3Areas ofInfluence...影响区域6.9.4Bands...区域？/影响带？6.9.5Click BandsToolbox单击影响带工具箱6.9.6Overlay...叠加6.9.7Create DensityGrid...创建密度网6.9.8Distance Matrix... 距离矩阵6.9.9Desire Lines... 需求路径6.9.10Tag Points byArea...根据区域标记点6.9.11Weighted Center... 加权中心6. 10GeographicUtilities地理工具？6.10.1GPS 全球定位系统6.10.1.1Read GPSData...读取GPS数据6.10.1.2Animate GPSData...6.10.1.3Import GPSPlaybackData...输入GPS重放数据6.10.2Lines of Sight... 观测线6.10.3Rubbersheet... 拉伸地理文件6.10 .4 Greate VectorGrid...创建矢量网6.10.5Connect Points... 连接节点6.10 .6 Line/AreaConversion...转换线和区域6.10 .7 Link ExternalNode/Line Layers...6.10 .8 Clip by Area...按地区剪贴地理文件6.10.9Multi Clipper...6.10 .10 Mask.. .6.10.11Merge Geography... 合并地图层6.10 .12 Coordinate to XY...6.10 .13 District Reports...6.10.14Mailing Labels...6.10.15Geographic File... 地理文件6. 11Logging6.11.1View Report6.11.2ViewLog6.11.3Add Text to Log/ReportFile6.11.4Clear Report6.11.5ClearLog6. 12Export...地理文件输出6. 13Open inArcMap...在ArcMap中打开6.Slide Show...幻灯片播放146. 15GISDeveloper'sKitGISDK工具箱6. 16Add-Ins加载宏/加载项？6. 17SetupAdd-Ins...设置加载项7Procedures程序7.1Networks/Path网络7.2Route System公交地理信息7.3Planning道路网规划模型7.4Transit公交规划模型7.5Routing/Logistics物流模型7.6Statistics统计模型7.7ShowAll显示全部7.8HideAll隐藏全部8Networks/Paths网络8. 1Create...创建网络8. 2Settings...网络设置8. 3Info...信息选择集8. 4Drop...删除8. 5Save Network Fields toTable...保存网络字段到表格8.6Select From Network...从网络中选择8. 7Turn Penalty Toolbox转向惩罚工具箱8. 8Turn Prohibition Editor转向禁止编辑器8.9Shortest Path最短路径计算8. 10Toll ShortestPath基于收费最短路径8. 11K shortestPathK条最短路径8.12Dynamic Path动态路径8.13Node to Node Distances...节点-节点距离8. 14Point to PointDistances...点-点（越野）距离8. 15MultiplePaths...多重路径8. 16Multiple TollPaths...多重收费路径8.17Dynamic Multiple Paths...动态多路径8.18Point to Point Paths...点到点路径8. 19Traveling SclesmanProblem...TSP问题8.20Network Partitioning...网络分隔8. 21NetworkBands...网络覆盖范围8. 22Network Bands from Matrix...8.23Create Exclusion Areas...9RouteSystems公交地理信息9.1EditingToolbox公交地理信息编辑工具箱9.2Route Query Toolbox公交查询工具箱9.3Route Service Toolbox公交服务查询工具箱9.4Route Browser Toolbox公交线路查询工具箱9.5LinearReferencing线性参考9.5. 1 Attach...连接9.5.2Merge Layers... 合并里程层9.5.3Shrink Table... 缩小里程表9.5.4Strip Chart... 带状分布图9.5.5Add Mileposts... 计算里程值9.5. 6 Calibrate fromTable...校准里程表？9. 6Utilities工具？9.6.1Select Links fromRoutes...9.6.2Select Routes fromLinks...9.6.3Compact... 压缩9.6.4Merge...合并9.6.5Move...移动9.6.6Create fromTable...表格生成9.6.7Create Stops... 创建公交站点9.6.8Create with RouteStops...创建路线站点9.6.9Create with PhysicalStops...创建物理站点9.6.10Compute RouteAttributes...计算路径属性9.6.11Fill Line Layer Fieldwith Route Attribute...用路径属性填充线层？9.6.12Route OverlapMatrix...路径重叠矩阵9.6.13Route Services...9.6.14Archive RouteSystem9.6.Restore Route System15 Archive...9. 7Reload重新加载9. 8Verify公交路网验证9. 9Import GTFS...9. 10Import GTFS to Link Layer...9. 11Export to GTFS...1Planning规划10 .1TripProductions出行发生10.1.1Cross-Classification交叉分类10.1.2Apply a Model 应用模型10.1.3Quick Response 快速反应10.1.4NCHRP365 TripProductionNCHRP365出行发生NCHRP365：美国城市规划出行评估技术10.1.5NCHRP365 Rates NCHRP365率10 .2TripAttractions出行吸引10.2.1Cross-Classification交叉分类10.2.2ITE AttractionRatesITE吸引率数据10.2.3Build ITE TripAttraction Database建立ITE出行吸引数据10.2.4Apply a Model 应用模型10.2.5Quick Response 快速反应10.2.6NCHRP365 TripAttractionNCHRP365出行吸引10.2.7NCHRP365 Rates NCHRP365率10 .3Balance平衡10.4Quick Response Method快速反应法10 .5TripDistribution出行分布10.5.1GravityApplication引力模型应用10.5.2GravityCalibration引力模型校准10.5.3UTPS Style GravityModelUTPS型引力模型UTPS：城镇交通规则系统10.5.4Growth FactorMethod增长因子法10.5.5InterveningOpportunities Model干预机会模型10.5.6Tri-ProportionalGrowth Factor三重比例增长因数10.5.7Tri-ProportionalGravity三重比例引力模型10.5.8Destination Choice ModelApplication讫点选择模型应用10.5.9Intrazonal TravelTimes隐域性旅程时间10.5.10Trip LengthDistribution旅行长度分布10.5.11Synthetic FrictionFactors摩擦因子合成10.6Mode Split模型分离10.6 .1 Logit ModelApplicationLogit模型应用10.6 .2 Logit ModelEstimationLogit模型估计10.7P-A to O-D P-A转O-D10 .8Time of DayAnalysis执行时段分析10.9Static Traffic Assignment静态交通分配10.9.1Traffic Assignment 交通分配10.9 .2 OriginUE原始用户平衡10.9 .3 Multi-Modal Multi-ClassAssignment多方式多类型分配10.9 .4 Volume-DependentTurning Delays基于流量的转向延误10.9 .5 Intersection ControlEditor交叉口控制编辑器10.9 .6 Multi Loading PointAssignment多加载点分配10.9 .7 Multi Loading PointNode Capacity多加载点的节点通行能力10.9.8Subarea Analysis 分区分析10.9 .9 Multi-Modal Multi-ClassSubarea Analysis多方式多类型分区分析10 .1 0Dynamic TrafficAssignment动态交通分配10.10.1Dynamic Assignment 动态分配10.10.2Dynamic SignalAssignment动态信号分配10.10.3Dynamic Multi-ModalMulti-Class Assignment动态多方式多类型分配10.10.4Dynamic Multi-ModalMulti-Class SignalAssignment动态多方式多类型信号分配10.10.5Dynamic Flow Map 动态流量图10 .1 1AssignmentUtilities分配工具10.11.1Create Flow Map 创建流量图10.11.2AssignmentDifferences分配差异10.11.3VDFChartVDF图表VDF：流量延误函数10.11.4Display IntersectionFlows显示交叉口流量10.11.5Assignment PathToolbox分配路径工具箱10.11.6ScreenlineAnalysis检测线分析10.11.7Select Link/ZoneQuery Builder指定路段/小区快速建立10.1OUE Select Link/Zone OUE指定路段/1.8 Analysis 小区分析10.1 1.9 OUE SubareaAnalysisOUE分区分析10.1 1.10 OUE Turn MovementAnalysisOUE转弯运动分析10.11.11Link Calculator 路段计算器10.11.12ICU Calculator ICU计算器10.11.13RMSE Calculator RMSE计算器10.12O-D Matrix Estimation OD矩阵估计OD反推？10.1 2.1 Single Class MatrixEstimation单类型矩阵估计10.1 2.2 Muti Class MatrixEstimation多类型矩阵估计10 .1 3PlanningUtilities规划工具10.13.1CentroidConnectors质心连接器10.13.2Creat a TurningMovement Table创建转弯运动表10.13.3Aggregate TurningVolumes By Link通过路段的宏观转弯量10.13.4SUMMIT User BenefitCalculationSUMMIT用户效益计算10.13.5SUMMIT ResultsManagerSUMMIT结果管理10.13.6Mobile 6 EmissionModel移动6排放模型10.13.7PopulationSynthesis样本综合合成10.13.8BuildCross-ClassificationTable建立交叉分类表10.14Planning Data规划数据10.1 4.1 Import PlanningNetworks导入规划网络10.1Import from Node/Link 由节点/路段表4.2 tables 导入10.1 4.3 Import EMME/2Files导入EMME/2文件10.1 4.4 Export to EMME/2Batchout导出到EMME/2Batchout10.1 4.5 Import FSUTMS TRANPLANBinary Networks导入FSUTMSTRANPLAN二进制网络10.1 4.6 Import FSUTMS TRANPLANText Netrworks导入FSUTMSTRANPLAN文本网络10.1 4.7 Import FSUTMS TRANPLANMatrices导入FSUTMSTRANPLAN矩阵10.1 4.8 Import MINUTP BinaryNetworks导入MINUTP二进制网络10.1 4.9 Import MINUTPMatrices导入MINUTP矩阵10.1 4.10 Import SATURN Network导入SATURN网络10.1 4.11 Import SATURNMatrices导入SATURN矩阵10.1 4.12 Import TModelMatrices导入T模型矩阵10.1 4.13 Import TP+ BinaryNetworks导入TP+二进制网络10.1 4.14 Import TP+Matriices导入TP+矩阵10.1 4.15 Import TRANPLANBinary Network导入TRANPLAN二进制网络10.1 4.16 Import TRANPLANMatrices导入TRANPLAN矩阵10.1 4.17 Import TRANPLAN TextTables导入TRANPLAN文本网络10.1 4.18 Convert Turn PenaltyTable转换转弯惩罚表10 .1 5SurveyUtilities调查工具10.15.1Travel GeographyViewer旅行地理观察器10.15.2Generate Trip-basedInformation基于出行的信息生成10.15.3Generate Tour-basedInformation基于旅行的信息生成10.16Accessibility可达性10.1 6.1 CumulativeOpportunity累计机会10.16.1.1Access通路10.16.1.2Network网络10.1 6.2 ContinuousMeasures连续指标10.16.2.1HansenSingle ModeHansen单模型10.16.2.2HansenMulti-ModeHansen多模型10.16.3Urban Form 城市形态10.16.3.1Entropy熵10.16.3.2Connectivity连通性10.16.3.3Intersection Densisty交叉口密度10.16.3.4Walkablity步行能力10.17HCM 2010 Procedures HCM2000程序10.1 7.1 Sinalized andUnsignalizedINtersections信控与非信控交叉口10.17.2Two-Lane Highways 双车道公路10.17.3Multilane Highways 多车道公路10 .1 8Distributed ComputingToolbox分布式计算工具箱10.19Batch Editing批量编辑11Transit公交规划模型11Create 创建网络.1Network...11 .2Tag Stops toNode...捕捉公交站点对应节点编号11 .3Transit Network Settings设置公共交通网络11.3.1Pathfinder... 路径搜索法11.3.2Shortest Path... 最短路径法11.3.3Schedule Based... 基于时刻表法11.3.4OptimalStrategies...最优策略法11.4Update Network Settings更新网络设置11.5Update Stop to Stop Costs更新站间费用11 .6Interactive Pathfinding查找公共交通最短路径11.6.1Pathfinder... 路径搜索法11.6.2Shortest Path... 最短路径法11.6.3Schedule Based... 基于时刻表法11.6.4OptimalStrategies...最优策略法11 .7Skimming？？？计算公共交通最优路径属性浏览矩阵11.7.1Pathfinder... 路径搜索法11.7.2Shortest Path... 最短路径法11.7.3OptimalStrategies...最优策略法11.8Transit Network Bands运输网络带11.9Assignment分配11.9.1Pathfinder... 路径搜索法11.9 .2 EquilibriumPathfinder...平衡路径搜索法11.9.3All or Nothing... 全有全无法11.9 .4 Stochastic UserEquilibrium...随机用户平衡法11.9.5Schedule Based... 基于时刻表法11.9 .6 OptimalStrategies...最优策略法11.9 .7 Transit Select LinkQuery Builder...公共交通选择连接段查询生成器11.9 .8 Transit PathToolbox...公共交通路径工具箱11 .1 0Load ProfileChart...载入简介图11 .1 1Aggregate On/OffCounts...站点乘降量11 .1 2RouteUtilization...利用路线11 .1 3Reports...报告11 .1 4Aggregate TransitAssignment...总公交分配11.15OD Matrix Estimation OD反推11.15.1Pathfinder... 路径搜索法11.1 5.2 EquilibriumPathfinder...平衡路径搜索法11.15.3All or Nothing... 全有全无法11.1 5.4 Stochastic UserEquilibrium...随机用户平衡法11.16Schedules时刻表11.1 6.1 Create TransitSchedule...创建公交时刻表11.1 6.2 Schedule QueryToolbox时刻表查询工具箱11.1 6.3 Calculate AverageRoute Headway计算平均路线发车间隔11.1 6.4 ScheduleAnimation...时刻表动画11 .1 7Utilities工具11.17.1Compute RouteAttributes...计算路线属性11.17.2Fill Line Layer Fieldwith Route Attribute...用路线属性填充路线层字段11.17.3Create TransitMovement Table...创建公交移动表格11.17.4Select Stops withMilepost Errors12Routing/Logistics物流模型12 .1CostMatrix...费用矩阵12 .2VehicleRouting...车辆路径12 .3Arc/StreetRouting12.3.1Arc Routing...12.3.2Route ServiceDirections...12.3.3Check NetworkConnectivity...12.4Minimum Spanning Tree 12.5Weighted Matching...12 .6The Transportation Problem...12.7Minmum Cost Flow...12.8Regional Partitioning (12).9Clustering...12Facility.1Location...1 3Statistics统计13.1Tabulations...制表符13.2Correlations...相关性分析13.3ModelEstimation...模型估计13.4ModelEvaluation...模型评价13.5Create ModelFile...创建队列模型13.6AdjacencyMatrix...近邻矩阵13.7SpatialAutocorrelation...空间自相关分析14Window窗口14 .1Refresh刷新14 .2TileHorizontally水平平铺14 .3TileVertically垂直平铺14 .4Cascade级联14.5Arrange Icons重排图标14.6Minimize All全部最小化14.7Restore All全部还原14.8Windows...窗口1 5Help帮助15.1TransCAD Help帮助15.2Regional DataHelp区域数据帮助15.3TransCAD User's Guide用户指南.Word 资料15.4 Travel Demand Modeling User's Guide交通需求模型用户指南 15.5 Routing and Logistics User'sGuide物流用户指南15.6 Activate NAVTEQ LicensesNAVTEQ 激活许可证15.7 Technical Support on theWeb在线技术支持15.8 Email Technical Support技术支持（邮件）15.9 Caliper on theWeb主页15.10 OnlineRegistration在线注册15.11Abou t关于。

1. 世界上第一个计算机网络是（A、ARPANET）2. 收发两端之间的传输距离为1000km，信号在媒体上的传播速率为sm/1028，数据的传播时延为C.0.005s3. 香农公式可以近似求得信道的极限信息传输速率C，如果S/N=15，信道的带宽W为3kHZ,那么该信道的极限信息传输速为( C.12kb/s )。

4. 在下列多路复用技术中（B．异步时分多路复用；）具有动态分配时隙的功能5．以下说法正确的是（）A. 采用虚拟网络技术，网络中的逻辑工作组的结点组成不受结点所在的物理位置限制B. 采用虚拟网络技术，网络中的逻辑工作组的结点组成受结点所在的物理位置限制C. 采用虚拟网络技术，网络中的逻辑工作组的结点必须在同一网段上D. 全错6. 一个VLAN可以看作是一个（B、广播域C、管理域）BC？？？7. CSMA/CD是IEEE802.3所定义的协议标准，它适用于（D. 以太网）8. 对于基带CSMA/CD而言，为了确保发送站点在传输时能检测到可能存在的冲突，数据帧的传输时延至少要等于信号传播时延的( B. 2倍)9. IP地址为172.16. 101.20，子网掩码为255.255.255.0，则该IP地址中，子网号共占用了( )位。

A.6B.8C.16D.2410. 以下（B、200.56.1.105 ）IP地址属于C类地址11. 下面IP属于D类地址的是（C 224.0.0.2 ）12. 当一台主机从一个网络移到另一个网络时，以下说法正确的是（B、必须改变它的IP 地址，但不需改动MAC 地址）13. IP地址：192.168.2.16，子网掩码：255.255.255.240，则最多可以划分出( )个子网。

(允许全0全1的子网号)。

A. 14B. 15C. 16D. 1814. 划分子网时，如果每个子网所能容纳的计算机大于60台，最合适的子网掩码为( )。

A. 255.255.255.192B. 255.255.255.248C. 255.255.255.224D. 255.255.255.24015. 在TCP/IP协议集中，ICMP协议工作在(C.网络层)。

1 File文件1.1 New... 新建1.2 Open... 打开1.3 Close...关闭1.4 Close All关闭所有1.5 Save保存1.6 Save As...另存为1.7 Send...发送1.8 Properties...性能1.9 Open Workspace...打开工作空间1.10 Save Workspace As...另存为工作空间1.11 Project Manager...工程管理1.12 Print...打印1.13 Exit退出2 Edit编辑2.1 Undo/Can't undo撤销2.2 Redo/Can't redo重做2.3 Clear Undo/Redo清楚撤销/重做2.4 Copy复制2.5 Paste粘贴2.6 Fill...填充2.7 Add Records增加记录2.8 Delete Records删除记录2.9 Delete Set删除选择集2.10 Find...查找2.11 Drawing Actions画图动作2.12 Prefernces...页面属性3 Map地图3.1 Layer...图层管理3.2 Display Manager图层展示管理3.3 Duplicate Map复制地图3.4 Combine Existing Maps...合并现有地图3.5 Scale...设定比例3.6 Previous Scale前一个比例视图3.7 Initial Scale最初比例视图3.8 Locator...定位3.9 Synchronize同步3.10 Pan平移3.10.1 Pan Right向右平移3.10.2 Pan Left向左平移3.10.3 Pan Up向上平移3.10.4 Pan Down向下平移3.10.5 Pan Map Toolbox地图平移工具箱3.11 Bookmarks书签3.11.1 Create...创建书签3.11.2 Go To前往书签3.11.3 Manager...书签管理3.12 Color Theme...颜色主题3.13 Pattern Theme...演示主题3.14 Dot-Density Theme...点密度主题3.15 Chart Theme...图表主题3.16 Scaled-Symbol Theme...比例主题3.17 Coloring...着色3.18 Feature Display...特征显示3.19 Prism Map...三维地图3.20 Display Hidden Labels展示隐藏标签3.21 Restore All Labels恢复所有标签3.22 Record Video录制视频4.Dataview数据表4.1 Fields...字段4.2 Field Sets...字段选择4.3 Column Settings...字段属性设置4.4 Sort...排列4.5 Sort Sets...排列设置4.6 Lock Columns锁定列4.7 Transpose...转置4.8 Group By...分组4.9 Duplicates...复制4.10 Formats...字段格式化4.11 Join...链接表格4.12 Drop Join...删除连接4.13 Formula Fields...公式填充字段4.14 Summary Statistics统计4.15 Import into Matrix导入到矩阵4.16 Export to Matrix导出矩阵4.17 Modify Table更改表格字段4.18 Table Structure表格结构5 Selection选择集5.1 Settings...选择集5.2 Select by Condition...通过条件选择5.3 Select by List...通过列表选择5.4 Select by Related Values...通过相关数值选择5.5 Select by Location...通过位置选择5.6 Select by Theme...通过专题选择5.7 Select by Highlight通过高亮选择5.8 Select by Adjacency5.9 Combine Selection...合并选择集5.10 Select Centroids...选择质心5.11 Select By Links...通过连接选择5.12 Select By Nodes...基于节点选择6 Tools工具6.1 Toolbox地理工具箱6.2 Selection选择集工具箱6.3 Map Editing地图编辑6.4 Imagery6.5 Surface Analysis地理表面分析6.6 Drawing Toolbox画图工具箱6.7 Map Librarian...地图库管理器6.8 Locate定位6.8.1 Locate By Address... 通过街道地址定位6.8.2 Locate By World City...通过世界城市定位6.8.3Locate By Value...通过数值定位6.8.4 Locate By Coordinate...通过坐标定位6.8.5 Locate By Pointing...通过指定点定位6.8.6 Locate Images by Geotagging…6.8.7 Index Locations...定位索引6.9 Geographic Analysis地理文件分析6.9.1 Merge by Value...创建地域6.9.2 Create Districts...创建区域6.9.3 Areas of Influence...影响区域6.9.4 Bands...区域？/影响带？6.9.5 Click Bands Toolbox单击影响带工具箱6.9.6 Overlay...叠加6.9.7 Create Density Grid...创建密度网6.9.8 Distance Matrix...距离矩阵6.9.9 Desire Lines...需求路径6.9.10 Tag Points by Area...根据区域标记点6.9.11 Weighted Center...加权中心6.10 Geographic Utilities地理工具？6.10.1 GPS全球定位系统6.10.1.1 Read GPS Data...读取GPS数据6.10.1.2 Animate GPS Data...6.10.1.3 Import GPS Playback Data...输入GPS重放数据6.10.2 Lines of Sight...观测线6.10.3 Rubbersheet...拉伸地理文件6.10.4 Greate Vector Grid...创建矢量网6.10.5 Connect Points...连接节点6.10.6 Line/Area Conversion...转换线和区域6.10.7 Link External Node/Line Layers...6.10.8 Clip by Area...按地区剪贴地理文件6.10.9 Multi Clipper...6.10.10 Mask...6.10.11 Merge Geography...合并地图层6.10.12 Coordinate to XY...6.10.13 District Reports...6.10.14 Mailing Labels...6.10.15 Geographic File...地理文件6.11 Logging6.11.1 View Report6.11.2 View Log6.11.3 Add Text to Log/Report File6.11.4 Clear Report6.11.5 Clear Log6.12 Export...地理文件输出6.13 Open in ArcMap... 在ArcMap中打开6.14 Slide Show...幻灯片播放6.15 GIS Developer's Kit GISDK工具箱6.16 Add-Ins加载宏/加载项？6.17 Setup Add-Ins...设置加载项7 Procedures 程序7.1 Networks/Path 网络7.2 Route System公交地理信息7.3 Planning道路网规划模型7.4 Transit公交规划模型7.5 Routing/Logistics 物流模型7.6 Statistics统计模型7.7 Show All显示全部7.8 Hide All隐藏全部8 Networks/Paths 网络8.1 Create...创建网络8.2 Settings...网络设置8.3 Info...信息选择集8.4 Drop...删除8.5 Save Network Fields to Table...保存网络字段到表格8.6 Select From Network...从网络中选择8.7 Turn Penalty Toolbox转向惩罚工具箱8.8 Turn Prohibition Editor转向禁止编辑器8.9 Shortest Path最短路径计算8.10 Toll Shortest Path基于收费最短路径8.11 K shortest Path K条最短路径8.12 Dynamic Path动态路径8.13 Node to Node Distances...节点-节点距离8.14 Point to Point Distances...点-点（越野）距离8.15 Multiple Paths...多重路径8.16 Multiple Toll Paths...多重收费路径8.17 Dynamic Multiple Paths...动态多路径8.18 Point to Point Paths...点到点路径8.19 Traveling Sclesman Problem... TSP问题8.20 Network Partitioning... 网络分隔8.21 Network Bands...网络覆盖范围8.22 Network Bands from Matrix...8.23 Create Exclusion Areas...9 Route Systems公交地理信息9.1 Editing Toolbox公交地理信息编辑工具箱9.2 Route Query Toolbox公交查询工具箱9.3 Route Service Toolbox公交服务查询工具箱9.4 Route Browser Toolbox公交线路查询工具箱9.5 Linear Referencing线性参考9.5.1 Attach...连接9.5.2 Merge Layers...合并里程层9.5.3 Shrink Table...缩小里程表9.5.4 Strip Chart...带状分布图9.5.5 Add Mileposts...计算里程值9.5.6 Calibrate from Table...校准里程表？9.6 Utilities工具？9.6.1 Select Links from Routes...9.6.2 Select Routes from Links...9.6.3 Compact...压缩9.6.4 Merge...合并9.6.5 Move...移动9.6.6 Create from Table...表格生成9.6.7 Create Stops...创建公交站点9.6.8 Create with Route Stops...创建路线站点9.6.9 Create with Physical Stops...创建物理站点9.6.10 Compute Route Attributes...计算路径属性9.6.11 Fill Line Layer Field with Route Attribute...用路径属性填充线层？9.6.12 Route Overlap Matrix...路径重叠矩阵9.6.13 Route Services...9.6.14 Archive Route System9.6.15 Restore Route System Archive...9.7 Reload重新加载9.8 Verify公交路网验证9.9 Import GTFS...9.10 Import GTFS to Link Layer...9.11 Export to GTFS...10 Planning规划10.1 Trip Productions 出行发生10.1.1 Cross-Classification 交叉分类10.1.2 Apply a Model 应用模型10.1.3 Quick Response 快速反应10.1.4 NCHRP365 Trip Production NCHRP365出行发生NCHRP365：美国城市规划出行评估技术10.1.5 NCHRP365 Rates NCHRP365率10.2 Trip Attractions 出行吸引10.2.1 Cross-Classification 交叉分类10.2.2 ITE Attraction Rates ITE吸引率数据10.2.3 Build ITE Trip Attraction Database 建立ITE出行吸引数据10.2.4 Apply a Model 应用模型10.2.5 Quick Response 快速反应10.2.6 NCHRP365 Trip Attraction NCHRP365出行吸引10.2.7 NCHRP365 Rates NCHRP365率10.3 Balance平衡10.4 Quick Response Method快速反应法10.5 Trip Distribution出行分布10.5.1 Gravity Application 引力模型应用10.5.2 Gravity Calibration 引力模型校准10.5.3 UTPS Style Gravity Model UTPS型引力模型UTPS：城镇交通规则系统10.5.4 GrowthFactor Method 增长因子法10.5.5 Intervening Opportunities Model 干预机会模型10.5.6 Tri-Proportional Growth Factor三重比例增长因数10.5.7 Tri-Proportional Gravity三重比例引力模型10.5.8 Destination Choice Model Application 讫点选择模型应用10.5.9 Intrazonal Travel Times隐域性旅程时间10.5.10 Trip Length Distribution旅行长度分布10.5.11 Synthetic Friction Factors摩擦因子合成10.6 Mode Split 模型分离10.6.1 Logit Model Application Logit模型应用10.6.2 Logit Model Estimation Logit模型估计10.7 P-A to O-D P-A转O-D10.8 Time of Day Analysis执行时段分析10.9 Static Traffic Assignment静态交通分配10.9.1 Traffic Assignment交通分配10.9.2 Origin UE原始用户平衡10.9.3 Multi-Modal Multi-Class Assignment多方式多类型分配10.9.4 Volume-Dependent Turning Delays基于流量的转向延误10.9.5 Intersection Control Editor交叉口控制编辑器10.9.6 Multi Loading Point Assignment多加载点分配10.9.7 Multi Loading Point Node Capacity多加载点的节点通行能力10.9.8 Subarea Analysis分区分析10.9.9 Multi-Modal Multi-Class Subarea Analysis多方式多类型分区分析10.10 Dynamic Traffic Assignment动态交通分配10.10.1 Dynamic Assignment动态分配10.10.2 Dynamic Signal Assignment动态信号分配10.10.3 Dynamic Multi-Modal Multi-Class Assignment动态多方式多类型分配10.10.4 Dynamic Multi-Modal Multi-Class Signal Assignment动态多方式多类型信号分配10.10.5 Dynamic Flow Map动态流量图10.11 Assignment Utilities分配工具10.11.1 Create Flow Map创建流量图10.11.2 Assignment Differences分配差异10.11.3 VDF Chart VDF图表VDF：流量延误函数10.11.4 Display Intersection Flows显示交叉口流量10.11.5 Assignment Path Toolbox分配路径工具箱10.11.6 Screenline Analysis检测线分析10.11.7 Select Link/Zone Query Builder指定路段/小区快速建立10.11.8 OUE Select Link/Zone Analysis OUE指定路段/小区分析10.11.9 OUE Subarea Analysis OUE分区分析10.11.10 OUE Turn Movement Analysis OUE转弯运动分析10.11.11 Link Calculator路段计算器10.11.12 ICU Calculator ICU计算器10.11.13 RMSE Calculator RMSE计算器10.12 O-D Matrix Estimation OD矩阵估计OD反推？10.12.1 Single Class Matrix Estimation单类型矩阵估计10.12.2 Muti Class Matrix Estimation多类型矩阵估计10.13 Planning Utilities规划工具10.13.1 Centroid Connectors质心连接器10.13.2 Creat a Turning Movement Table创建转弯运动表10.13.3 Aggregate Turning Volumes By Link通过路段的宏观转弯量10.13.4 SUMMIT User Benefit CalculationSUMMIT用户效益计算10.13.5 SUMMIT Results ManagerSUMMIT结果管理10.13.6 Mobile 6 Emission Model移动6排放模型10.13.7 Population Synthesis样本综合合成10.13.8 Build Cross-Classification Table建立交叉分类表10.14 Planning Data规划数据10.14.1 Import Planning Networks导入规划网络10.14.2 Import from Node/Link tables由节点/路段表导入10.14.3 Import EMME/2 Files导入EMME/2文件10.14.4 Export to EMME/2 Batchout导出到EMME/2 Batchout10.14.5 Import FSUTMS TRANPLAN Binary Networks导入FSUTMS TRANPLAN 二进制网络10.14.6 Import FSUTMS TRANPLAN Text Netrworks导入FSUTMS TRANPLAN文本网络10.14.7 Import FSUTMS TRANPLAN Matrices导入FSUTMS TRANPLAN矩阵10.14.8 Import MINUTP Binary Networks导入MINUTP二进制网络10.14.9 Import MINUTP Matrices导入MINUTP矩阵10.14.10 Import SATURN Network导入SATURN网络10.14.11 Import SATURN Matrices导入SATURN矩阵10.14.12 Import TModel Matrices导入T模型矩阵10.14.13 Import TP+ Binary Networks导入TP+二进制网络10.14.14 Import TP+ Matriices导入TP+矩阵10.14.15 Import TRANPLAN Binary Network导入TRANPLAN二进制网络10.14.16 Import TRANPLAN Matrices导入TRANPLAN矩阵10.14.17 Import TRANPLAN Text Tables导入TRANPLAN文本网络10.14.18 Convert Turn Penalty Table转换转弯惩罚表10.15 Survey Utilities调查工具10.15.1 Travel Geography Viewer旅行地理观察器10.15.2 Generate Trip-based Information基于出行的信息生成10.15.3 Generate Tour-based Information基于旅行的信息生成10.16 Accessibility可达性10.16.1 Cumulative Opportunity累计机会10.16.1.1 Access通路10.16.1.2 Network网络10.16.2 Continuous Measures连续指标10.16.2.1 Hansen Single Mode Hansen单模型10.16.2.2 Hansen Multi-Mode Hansen多模型10.16.3 Urban Form城市形态10.16.3.1 Entropy熵10.16.3.2 Connectivity连通性10.16.3.3 Intersection Densisty交叉口密度10.16.3.4 Walkablity步行能力10.17 HCM 2010 Procedures HCM2000程序10.17.1 Sinalized and Unsignalized INtersections信控与非信控交叉口10.17.2 Two-Lane Highways双车道公路10.17.3 Multilane Highways多车道公路10.18 Distributed Computing Toolbox分布式计算工具箱10.19 Batch Editing批量编辑11 Transit公交规划模型11.1 Create Network...创建网络11.2 Tag Stops to Node...捕捉公交站点对应节点编号11.3 Transit Network Settings设置公共交通网络11.3.1 Pathfinder...路径搜索法11.3.2 Shortest Path...最短路径法11.3.3 Schedule Based...基于时刻表法11.3.4 Optimal Strategies...最优策略法11.4 Update Network Settings更新网络设置11.5 Update Stop to Stop Costs更新站间费用11.6 Interactive Pathfinding查找公共交通最短路径11.6.1 Pathfinder...路径搜索法11.6.2 Shortest Path...最短路径法11.6.3 Schedule Based...基于时刻表法11.6.4 Optimal Strategies...最优策略法11.7 Skimming计算公共交通最优路径属性浏览矩阵11.7.1 Pathfinder...路径搜索法11.7.2 Shortest Path...最短路径法11.7.3 Optimal Strategies...最优策略法11.8 Transit Network Bands运输网络带11.9 Assignment分配11.9.1 Pathfinder...路径搜索法11.9.2 Equilibrium Pathfinder...平衡路径搜索法11.9.3 All or Nothing...全有全无法11.9.4 Stochastic User Equilibrium...随机用户平衡法11.9.5 Schedule Based...基于时刻表法11.9.6 Optimal Strategies...最优策略法11.9.7 Transit Select Link Query Builder...公共交通选择连接段查询生成器11.9.8 Transit Path Toolbox...公共交通路径工具箱11.10 Load Profile Chart...载入简介图11.11 Aggregate On/Off Counts...站点乘降量11.12 Route Utilization...利用路线11.13 Reports...报告11.14 Aggregate Transit Assignment...总公交分配11.15 OD Matrix EstimationOD反推11.15.1 Pathfinder... 路径搜索法11.15.2 Equilibrium Pathfinder...平衡路径搜索法11.15.3 All or Nothing...全有全无法11.15.4 Stochastic User Equilibrium...随机用户平衡法11.16 Schedules时刻表11.16.1 Create Transit Schedule...创建公交时刻表11.16.2 Schedule Query Toolbox时刻表查询工具箱11.16.3 Calculate Average Route Headway计算平均路线发车间隔11.16.4 Schedule Animation...时刻表动画11.17 Utilities工具11.17.1 Compute Route Attributes...计算路线属性11.17.2 Fill Line Layer Field with Route Attribute...用路线属性填充路线层字段11.17.3 Create Transit Movement Table...创建公交移动表格11.17.4 Select Stops with Milepost Errors12Routing/Logistics物流模型12.1 Cost Matrix...费用矩阵12.2 Vehicle Routing...车辆路径12.3 Arc/Street Routing12.3.1 Arc Routing...12.3.2 Route Service Directions...12.3.3 Check Network Connectivity...12.4 Minimum Spanning Tree12.5 Weighted Matching...12.6 The Transportation Problem...12.7 Minmum Cost Flow...12.8 Regional Partitioning...12.9 Clustering...12.10 Facility Location...13 Statistics统计13.1 Tabulations...制表符13.2 Correlations...相关性分析13.3 Model Estimation...模型估计13.4 Model Evaluation...模型评价13.5 Create Model File...创建队列模型13.6 Adjacency Matrix...近邻矩阵13.7 Spatial Autocorrelation...空间自相关分析14Window 窗口14.1 Refresh 刷新14.2 Tile Horizontally水平平铺14.3 Tile Vertically垂直平铺14.4 Cascade级联14.5 Arrange Icons重排图标14.6 Minimize All全部最小化14.7 Restore All全部还原14.8 Windows...窗口15 Help帮助15.1TransCAD Help帮助15.2 Regional Data Help区域数据帮助15.3 TransCAD User's Guide用户指南15.4 Travel Demand Modeling User's Guide交通需求模型用户指南15.5 Routing and Logistics User's Guide物流用户指南15.6 Activate NAVTEQ Licenses NAVTEQ激活许可证15.7 Technical Support on the Web 在线技术支持15.8 Email Technical Support技术支持（邮件）15.9 Caliper on the Web主页15.10 Online Registration在线注册15.11 About关于。

1 File文件1.1 New... 新建1.2 Open... 打开1.3 Close...关闭1.4 Close All关闭所有1.5 Save保存1.6 Save As...另存为1.7 Send...发送1.8 Properties...性能1.9 Open Workspace...打开工作空间1.10 Save Workspace As...另存为工作空间1.11 Project Manager...工程管理1.12 Print...打印1.13 Exit退出2 Edit编辑2.1 Undo/Can't undo撤销2.2 Redo/Can't redo重做2.3 Clear Undo/Redo清楚撤销/重做2.4 Copy复制2.5 Paste粘贴2.6 Fill...填充2.7 Add Records增加记录2.8 Delete Records删除记录2.9 Delete Set删除选择集2.10 Find...查找2.11 Drawing Actions画图动作2.12 Prefernces...页面属性3 Map地图3.1 Layer...图层管理3.2 Display Manager图层展示管理3.3 Duplicate Map复制地图3.4 Combine Existing Maps...合并现有地图3.5 Scale...设定比例3.6 Previous Scale前一个比例视图3.7 Initial Scale最初比例视图3.8 Locator...定位3.9 Synchronize同步3.10 Pan平移3.10.1 Pan Right向右平移3.10.2 Pan Left向左平移3.10.3 Pan Up向上平移3.10.4 Pan Down向下平移3.10.5 Pan Map Toolbox地图平移工具箱3.11 Bookmarks书签3.11.1 Create...创建书签3.11.2 Go To前往书签3.11.3 Manager...书签管理3.12 Color Theme...颜色主题3.13 Pattern Theme...演示主题3.14 Dot-Density Theme...点密度主题3.15 Chart Theme...图表主题3.16 Scaled-Symbol Theme...比例主题3.17 Coloring...着色3.18 Feature Display...特征显示3.19 Prism Map...三维地图3.20 Display Hidden Labels展示隐藏标签3.21 Restore All Labels恢复所有标签3.22 Record Video录制视频4.Dataview数据表4.1 Fields...字段4.2 Field Sets...字段选择4.3 Column Settings...字段属性设置4.4 Sort...排列4.5 Sort Sets...排列设置4.6 Lock Columns锁定列4.7 Transpose...转置4.8 Group By...分组4.9 Duplicates...复制4.10 Formats...字段格式化4.11 Join...链接表格4.12 Drop Join...删除连接4.13 Formula Fields...公式填充字段4.14 Summary Statistics统计4.15 Import into Matrix导入到矩阵4.16 Export to Matrix导出矩阵4.17 Modify Table更改表格字段4.18 Table Structure表格结构5 Selection选择集5.1 Settings...选择集5.2 Select by Condition...通过条件选择5.3 Select by List...通过列表选择5.4 Select by Related Values...通过相关数值选择5.5 Select by Location...通过位置选择5.6 Select by Theme...通过专题选择5.7 Select by Highlight通过高亮选择5.8 Select by Adjacency5.9 Combine Selection...合并选择集5.10 Select Centroids...选择质心5.11 Select By Links...通过连接选择5.12 Select By Nodes...基于节点选择6 Tools工具6.1 Toolbox地理工具箱6.2 Selection选择集工具箱6.3 Map Editing地图编辑6.4 Imagery6.5 Surface Analysis地理表面分析6.6 Drawing Toolbox画图工具箱6.7 Map Librarian...地图库管理器6.8 Locate定位6.8.1 Locate By Address... 通过街道地址定位6.8.2 Locate By World City...通过世界城市定位6.8.3Locate By Value...通过数值定位6.8.4 Locate By Coordinate...通过坐标定位6.8.5 Locate By Pointing...通过指定点定位6.8.6 Locate Images by Geotagging…6.8.7 Index Locations...定位索引6.9 Geographic Analysis地理文件分析6.9.1 Merge by Value...创建地域6.9.2 Create Districts...创建区域6.9.3 Areas of Influence...影响区域6.9.4 Bands...区域？/影响带？6.9.5 Click Bands Toolbox单击影响带工具箱6.9.6 Overlay...叠加6.9.7 Create Density Grid...创建密度网6.9.8 Distance Matrix...距离矩阵6.9.9 Desire Lines...需求路径6.9.10 Tag Points by Area...根据区域标记点6.9.11 Weighted Center...加权中心6.10 Geographic Utilities地理工具？6.10.1 GPS全球定位系统6.10.1.1 Read GPS Data...读取GPS数据6.10.1.2 Animate GPS Data...6.10.1.3 Import GPS Playback Data...输入GPS重放数据6.10.2 Lines of Sight...观测线6.10.3 Rubbersheet...拉伸地理文件6.10.4 Greate Vector Grid...创建矢量网6.10.5 Connect Points...连接节点6.10.6 Line/Area Conversion...转换线和区域6.10.7 Link External Node/Line Layers...6.10.8 Clip by Area...按地区剪贴地理文件6.10.9 Multi Clipper...6.10.10 Mask...6.10.11 Merge Geography...合并地图层6.10.12 Coordinate to XY...6.10.13 District Reports...6.10.14 Mailing Labels...6.10.15 Geographic File...地理文件6.11 Logging6.11.1 View Report6.11.2 View Log6.11.3 Add Text to Log/Report File6.11.4 Clear Report6.11.5 Clear Log6.12 Export...地理文件输出6.13 Open in ArcMap... 在ArcMap中打开6.14 Slide Show...幻灯片播放6.15 GIS Developer's Kit GISDK工具箱6.16 Add-Ins加载宏/加载项？6.17 Setup Add-Ins...设置加载项7 Procedures 程序7.1 Networks/Path 网络7.2 Route System公交地理信息7.3 Planning道路网规划模型7.4 Transit公交规划模型7.5 Routing/Logistics 物流模型7.6 Statistics统计模型7.7 Show All显示全部7.8 Hide All隐藏全部8 Networks/Paths 网络8.1 Create...创建网络8.2 Settings...网络设置8.3 Info...信息选择集8.4 Drop...删除8.5 Save Network Fields to Table...保存网络字段到表格8.6 Select From Network...从网络中选择8.7 Turn Penalty Toolbox转向惩罚工具箱8.8 Turn Prohibition Editor转向禁止编辑器8.9 Shortest Path最短路径计算8.10 Toll Shortest Path基于收费最短路径8.11 K shortest Path K条最短路径8.12 Dynamic Path动态路径8.13 Node to Node Distances...节点-节点距离8.14 Point to Point Distances...点-点（越野）距离8.15 Multiple Paths...多重路径8.16 Multiple Toll Paths...多重收费路径8.17 Dynamic Multiple Paths...动态多路径8.18 Point to Point Paths...点到点路径8.19 Traveling Sclesman Problem... TSP问题8.20 Network Partitioning... 网络分隔8.21 Network Bands...网络覆盖范围8.22 Network Bands from Matrix...8.23 Create Exclusion Areas...9 Route Systems公交地理信息9.1 Editing Toolbox公交地理信息编辑工具箱9.2 Route Query Toolbox公交查询工具箱9.3 Route Service Toolbox公交服务查询工具箱9.4 Route Browser Toolbox公交线路查询工具箱9.5 Linear Referencing线性参考9.5.1 Attach...连接9.5.2 Merge Layers...合并里程层9.5.3 Shrink Table...缩小里程表9.5.4 Strip Chart...带状分布图9.5.5 Add Mileposts...计算里程值9.5.6 Calibrate from Table...校准里程表？9.6 Utilities工具？9.6.1 Select Links from Routes...9.6.2 Select Routes from Links...9.6.3 Compact...压缩9.6.4 Merge...合并9.6.5 Move...移动9.6.6 Create from Table...表格生成9.6.7 Create Stops...创建公交站点9.6.8 Create with Route Stops...创建路线站点9.6.9 Create with Physical Stops...创建物理站点9.6.10 Compute Route Attributes...计算路径属性9.6.11 Fill Line Layer Field with Route Attribute...用路径属性填充线层？9.6.12 Route Overlap Matrix...路径重叠矩阵9.6.13 Route Services...9.6.14 Archive Route System9.6.15 Restore Route System Archive...9.7 Reload重新加载9.8 Verify公交路网验证9.9 Import GTFS...9.10 Import GTFS to Link Layer...9.11 Export to GTFS...10 Planning规划10.1 Trip Productions 出行发生10.1.1 Cross-Classification 交叉分类10.1.2 Apply a Model 应用模型10.1.3 Quick Response 快速反应10.1.4 NCHRP365 Trip Production NCHRP365出行发生NCHRP365：美国城市规划出行评估技术10.1.5 NCHRP365 Rates NCHRP365率10.2 Trip Attractions 出行吸引10.2.1 Cross-Classification 交叉分类10.2.2 ITE Attraction Rates ITE吸引率数据10.2.3 Build ITE Trip Attraction Database 建立ITE出行吸引数据10.2.4 Apply a Model 应用模型10.2.5 Quick Response 快速反应10.2.6 NCHRP365 Trip Attraction NCHRP365出行吸引10.2.7 NCHRP365 Rates NCHRP365率10.3 Balance平衡10.4 Quick Response Method快速反应法10.5 Trip Distribution出行分布10.5.1 Gravity Application 引力模型应用10.5.2 Gravity Calibration 引力模型校准10.5.3 UTPS Style Gravity Model UTPS型引力模型UTPS：城镇交通规则系统10.5.4 GrowthFactor Method 增长因子法10.5.5 Intervening Opportunities Model 干预机会模型10.5.6 Tri-Proportional Growth Factor三重比例增长因数10.5.7 Tri-Proportional Gravity三重比例引力模型10.5.8 Destination Choice Model Application 讫点选择模型应用10.5.9 Intrazonal Travel Times隐域性旅程时间10.5.10 Trip Length Distribution旅行长度分布10.5.11 Synthetic Friction Factors摩擦因子合成10.6 Mode Split 模型分离10.6.1 Logit Model Application Logit模型应用10.6.2 Logit Model Estimation Logit模型估计10.7 P-A to O-D P-A转O-D10.8 Time of Day Analysis执行时段分析10.9 Static Traffic Assignment静态交通分配10.9.1 Traffic Assignment交通分配10.9.2 Origin UE原始用户平衡10.9.3 Multi-Modal Multi-Class Assignment多方式多类型分配10.9.4 Volume-Dependent Turning Delays基于流量的转向延误10.9.5 Intersection Control Editor交叉口控制编辑器10.9.6 Multi Loading Point Assignment多加载点分配10.9.7 Multi Loading Point Node Capacity多加载点的节点通行能力10.9.8 Subarea Analysis分区分析10.9.9 Multi-Modal Multi-Class Subarea Analysis多方式多类型分区分析10.10 Dynamic Traffic Assignment动态交通分配10.10.1 Dynamic Assignment动态分配10.10.2 Dynamic Signal Assignment动态信号分配10.10.3 Dynamic Multi-Modal Multi-Class Assignment动态多方式多类型分配10.10.4 Dynamic Multi-Modal Multi-Class Signal Assignment动态多方式多类型信号分配10.10.5 Dynamic Flow Map动态流量图10.11 Assignment Utilities分配工具10.11.1 Create Flow Map创建流量图10.11.2 Assignment Differences分配差异10.11.3 VDF Chart VDF图表VDF：流量延误函数10.11.4 Display Intersection Flows显示交叉口流量10.11.5 Assignment Path Toolbox分配路径工具箱10.11.6 Screenline Analysis检测线分析10.11.7 Select Link/Zone Query Builder指定路段/小区快速建立10.11.8 OUE Select Link/Zone Analysis OUE指定路段/小区分析10.11.9 OUE Subarea Analysis OUE分区分析10.11.10 OUE Turn Movement Analysis OUE转弯运动分析10.11.11 Link Calculator路段计算器10.11.12 ICU Calculator ICU计算器10.11.13 RMSE Calculator RMSE计算器10.12 O-D Matrix Estimation OD矩阵估计OD反推？10.12.1 Single Class Matrix Estimation单类型矩阵估计10.12.2 Muti Class Matrix Estimation多类型矩阵估计10.13 Planning Utilities规划工具10.13.1 Centroid Connectors质心连接器10.13.2 Creat a Turning Movement Table创建转弯运动表10.13.3 Aggregate Turning Volumes By Link通过路段的宏观转弯量10.13.4 SUMMIT User Benefit CalculationSUMMIT用户效益计算10.13.5 SUMMIT Results ManagerSUMMIT结果管理10.13.6 Mobile 6 Emission Model移动6排放模型10.13.7 Population Synthesis样本综合合成10.13.8 Build Cross-Classification Table建立交叉分类表10.14 Planning Data规划数据10.14.1 Import Planning Networks导入规划网络10.14.2 Import from Node/Link tables由节点/路段表导入10.14.3 Import EMME/2 Files导入EMME/2文件10.14.4 Export to EMME/2 Batchout导出到EMME/2 Batchout10.14.5 Import FSUTMS TRANPLAN Binary Networks导入FSUTMS TRANPLAN 二进制网络10.14.6 Import FSUTMS TRANPLAN Text Netrworks导入FSUTMS TRANPLAN文本网络10.14.7 Import FSUTMS TRANPLAN Matrices导入FSUTMS TRANPLAN矩阵10.14.8 Import MINUTP Binary Networks导入MINUTP二进制网络10.14.9 Import MINUTP Matrices导入MINUTP矩阵10.14.10 Import SATURN Network导入SATURN网络10.14.11 Import SATURN Matrices导入SATURN矩阵10.14.12 Import TModel Matrices导入T模型矩阵10.14.13 Import TP+ Binary Networks导入TP+二进制网络10.14.14 Import TP+ Matriices导入TP+矩阵10.14.15 Import TRANPLAN Binary Network导入TRANPLAN二进制网络10.14.16 Import TRANPLAN Matrices导入TRANPLAN矩阵10.14.17 Import TRANPLAN Text Tables导入TRANPLAN文本网络10.14.18 Convert Turn Penalty Table转换转弯惩罚表10.15 Survey Utilities调查工具10.15.1 Travel Geography Viewer旅行地理观察器10.15.2 Generate Trip-based Information基于出行的信息生成10.15.3 Generate Tour-based Information基于旅行的信息生成10.16 Accessibility可达性10.16.1 Cumulative Opportunity累计机会10.16.1.1 Access通路10.16.1.2 Network网络10.16.2 Continuous Measures连续指标10.16.2.1 Hansen Single Mode Hansen单模型10.16.2.2 Hansen Multi-Mode Hansen多模型10.16.3 Urban Form城市形态10.16.3.1 Entropy熵10.16.3.2 Connectivity连通性10.16.3.3 Intersection Densisty交叉口密度10.16.3.4 Walkablity步行能力10.17 HCM 2010 Procedures HCM2000程序10.17.1 Sinalized and Unsignalized INtersections信控与非信控交叉口10.17.2 Two-Lane Highways双车道公路10.17.3 Multilane Highways多车道公路10.18 Distributed Computing Toolbox分布式计算工具箱10.19 Batch Editing批量编辑11 Transit公交规划模型11.1 Create Network...创建网络11.2 Tag Stops to Node...捕捉公交站点对应节点编号11.3 Transit Network Settings设置公共交通网络11.3.1 Pathfinder...路径搜索法11.3.2 Shortest Path...最短路径法11.3.3 Schedule Based...基于时刻表法11.3.4 Optimal Strategies...最优策略法11.4 Update Network Settings更新网络设置11.5 Update Stop to Stop Costs更新站间费用11.6 Interactive Pathfinding查找公共交通最短路径11.6.1 Pathfinder...路径搜索法11.6.2 Shortest Path...最短路径法11.6.3 Schedule Based...基于时刻表法11.6.4 Optimal Strategies...最优策略法11.7 Skimming计算公共交通最优路径属性浏览矩阵11.7.1 Pathfinder...路径搜索法11.7.2 Shortest Path...最短路径法11.7.3 Optimal Strategies...最优策略法11.8 Transit Network Bands运输网络带11.9 Assignment分配11.9.1 Pathfinder...路径搜索法11.9.2 Equilibrium Pathfinder...平衡路径搜索法11.9.3 All or Nothing...全有全无法11.9.4 Stochastic User Equilibrium...随机用户平衡法11.9.5 Schedule Based...基于时刻表法11.9.6 Optimal Strategies...最优策略法11.9.7 Transit Select Link Query Builder...公共交通选择连接段查询生成器11.9.8 Transit Path Toolbox...公共交通路径工具箱11.10 Load Profile Chart...载入简介图11.11 Aggregate On/Off Counts...站点乘降量11.12 Route Utilization...利用路线11.13 Reports...报告11.14 Aggregate Transit Assignment...总公交分配11.15 OD Matrix EstimationOD反推11.15.1 Pathfinder... 路径搜索法11.15.2 Equilibrium Pathfinder...平衡路径搜索法11.15.3 All or Nothing...全有全无法11.15.4 Stochastic User Equilibrium...随机用户平衡法11.16 Schedules时刻表11.16.1 Create Transit Schedule...创建公交时刻表11.16.2 Schedule Query Toolbox时刻表查询工具箱11.16.3 Calculate Average Route Headway计算平均路线发车间隔11.16.4 Schedule Animation...时刻表动画11.17 Utilities工具11.17.1 Compute Route Attributes...计算路线属性11.17.2 Fill Line Layer Field with Route Attribute...用路线属性填充路线层字段11.17.3 Create Transit Movement Table...创建公交移动表格11.17.4 Select Stops with Milepost Errors12Routing/Logistics物流模型12.1 Cost Matrix...费用矩阵12.2 Vehicle Routing...车辆路径12.3 Arc/Street Routing12.3.1 Arc Routing...12.3.2 Route Service Directions...12.3.3 Check Network Connectivity...12.4 Minimum Spanning Tree12.5 Weighted Matching...12.6 The Transportation Problem...12.7 Minmum Cost Flow...12.8 Regional Partitioning...12.9 Clustering...12.10 Facility Location...13 Statistics统计13.1 Tabulations...制表符13.2 Correlations...相关性分析13.3 Model Estimation...模型估计13.4 Model Evaluation...模型评价13.5 Create Model File...创建队列模型13.6 Adjacency Matrix...近邻矩阵13.7 Spatial Autocorrelation...空间自相关分析14Window 窗口14.1 Refresh 刷新14.2 Tile Horizontally水平平铺14.3 Tile Vertically垂直平铺14.4 Cascade级联14.5 Arrange Icons重排图标14.6 Minimize All全部最小化14.7 Restore All全部还原14.8 Windows...窗口15 Help帮助15.1TransCAD Help帮助15.2 Regional Data Help区域数据帮助15.3 TransCAD User's Guide用户指南15.4 Travel Demand Modeling User's Guide交通需求模型用户指南15.5 Routing and Logistics User's Guide物流用户指南15.6 Activate NAVTEQ Licenses NAVTEQ激活许可证15.7 Technical Support on the Web 在线技术支持15.8 Email Technical Support技术支持（邮件）15.9 Caliper on the Web主页15.10 Online Registration在线注册15.11 About关于。

neo4j cql shortestpath 用法-回复Neo4j是一种图数据库，提供了强大的查询语言Cypher。

在Cypher中，可以使用最短路径算法来找到两个节点之间的最短路径。

在本文中，我们将深入探讨Neo4j的CQL最短路径的用法并提供详细的步骤解释。

首先，让我们了解一下最短路径算法。

最短路径算法是用来解决网络结构中的两点之间的最短路径问题的一种算法。

在图数据库中，最短路径算法可以用来查找节点之间的最佳路线，例如找到两个城市之间的最短距离或者两个用户之间的最短社交路径。

在Neo4j中，可以使用CQL语句来执行最短路径算法。

这些语句使用关键字MATCH和RETURN，来定义路径的起点、终点以及返回的结果。

最短路径算法的基本语法如下所示：MATCH (startNode:Label1 {property1: value1}), (endNode:Label2 {property2: value2})CALL algo.shortestPath.stream(startNode, endNode, weightProperty)YIELD nodeId, costRETURN nodeId, cost在这个语句中，我们首先使用MATCH关键字，指定节点的标签和属性值，以定义路径的起点和终点。

然后，使用CALL关键字调用算法函数algo.shortestPath.stream，其中startNode和endNode是之前定义的起点和终点节点。

weightProperty是用于计算路径权重的属性。

最后，使用YIELD关键字来指定返回的节点ID和路径的代价（即路径的长度）。

为了更好地理解最短路径算法的用法，让我们通过一个具体的示例来演示。

假设我们有一个城市之间的网络结构，其中包含了一些城市节点和道路节点，每个节点都有一个与之相关的属性值。

首先，我们需要在Neo4j中创建节点和关系。

我们可以使用如下的Cypher 语句来创建两个城市节点和一条道路节点的关系：CREATE (city1:City {name: 'A', population: 1000000})CREATE (city2:City {name: 'B', population: 2000000})CREATE (road:Road {name: 'A-B', distance: 100})CREATE (city1)-[:CONNECTED_TO {road: 'A-B'}]->(city2)在这个例子中，我们创建了两个城市节点A和B，并且他们之间有一条道路A-B，长度为100。

一、介绍Neo4j是一个高性能的图数据库，它使用Cypher查询语言（CQL）来操作图数据。

其中，shortestpath是Cypher查询语言中用于查找图中两个节点之间最短路径的功能。

本文将介绍如何使用neo4j的CQL语言来实现shortestpath功能以及常见的用法和注意事项。

二、最短路径概念在图数据库中，最短路径指的是在图中找到两个节点之间的最短路径，即经过的边的权重之和最小。

这个问题可以被抽象为图论中的最短路径算法，比如Dijkstra算法和Floyd-Warshall算法。

在neo4j中，我们可以使用CQL语言来实现最短路径的查找。

三、最短路径函数在neo4j中，通过使用MATCH和RETURN语句结合最短路径函数来查找最短路径。

最短路径函数的基本语法如下：MATCH (start:Node {name:"A"}) , (end:Node {name:"B"})CALL algo.shortestPath.stream(start, end, "weight")YIELD nodeId, costRETURN algo.asNode(nodeId).name AS node, cost上述语句中，start和end分别表示起始节点和目标节点，"weight"表示边的权重字段。

函数将返回节点和路径的cost，即最短路径的权重和。

通过调用这个函数，我们可以实现最短路径的查找。

四、最短路径实例假设我们有一个图数据库，其中包含若干节点和带有权重的边。

我们希望找到节点A到节点B的最短路径。

我们可以使用如下CQL语句来实现：MATCH (start:Node {name:"A"}) , (end:Node {name:"B"})CALL algo.shortestPath.stream(start, end, "weight")YIELD nodeId, costRETURN algo.asNode(nodeId).name AS node, cost通过执行上述语句，我们可以得到节点A到节点B的最短路径和其权重之和。

QUESTION 37What are two characteristics of RIPv2? (Choose two.)A. classful routing protocolB. variable-length subnet masksC. broadcast addressingD. manual route summarizationE. uses SPF algorithm to compute pathAnswer: BDExplanation/Reference:A：有类路由协议，错误B：可变长度子网掩码，正确C：采用广播地址更新，错误D：手动路由汇总，正确E:使用 spf 算法计算路径，错误。

QUESTION 38Which two Ethernet fiber-optic modes support distances of greater than 550 meters? A.1000BASE-CXB.100BASE-FXC.1000BASE-LXD.1000BASE-SXE.1000BASE-ZX Answer: CEExplanation/Reference: A：最长距离25米B：最长距离 100米C：最长距离 3000米D：最长距离 550米E：最长距离 70 千米QUESTION 39What two things will a router do when running adistance vector routing protocol? (Choose two.)A. Send periodic updates regardless of topology changes.B. Send entire routing table to all routers in the routing domain.C. Use the shortest-path algorithm to thedetermine best path.D. Update the routing table based on updates fromtheir neighbors.E. Maintain the topology of the entire network in its database.Answer: ADExplanation/Reference:考点：考查距离矢量路由协议特性A：周期性更新，正确B：发送整个路由表到整个路由域，错误，只发送给邻居C：使用 SPF算法，错误D：依靠邻居发送更新来更新路由表，正确E：在数据库中维护整个网络的拓扑。