This process can significantly reduce the time it takes you to incorporate raster data into your vector database. In this exercise, you will generate features from a scanned parcel map by interactively tracing raster cells. You will begin by starting ArcMap and loading a map document that contains the raster dataset and two layers. Click the Open button on the Standard toolbar. Navigate to the ArcScanTrace.
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This process can significantly reduce the time it takes you to incorporate raster data into your vector database. In this exercise, you will generate features from a scanned parcel map by interactively tracing raster cells. You will begin by starting ArcMap and loading a map document that contains the raster dataset and two layers. Click the Open button on the Standard toolbar. Navigate to the ArcScanTrace. Click Open.
To use ArcScan, you need to enable the extension. Raster layers must be symbolized as two-color images to use the ArcScan tools and commands. You will change the raster symbology from stretched to unique values. Right-click the ParcelScan. The Layer Properties dialog box appears. Click the Symbology tab on the Layer Properties dialog box.
Click Unique Values in the Show box. Click OK. Setting the raster snapping environment ArcScan is designed to work in conjunction with the ArcMap editing environment and is only active when an edit session has been started. You need to set some options for snapping while editing and using ArcScan. Click the Editor menu and click Options. ArcScan uses the classic editing snapping environment rather than the Snapping toolbar.
Click the General tab. Check Use classic snapping. Therefore, once you have completed your work with ArcScan, you should reenable the Snapping toolbar by unchecking the Use classic snapping box. The ArcScan extension is only active in an edit session. The Start Editing command allows you to begin an edit session. Click the Editor menu on the Editor toolbar and click Start Editing.
Choose to start editing on the file geodatabase workspace and click OK. Raster snapping requires settings that influence the behavior of the tracing. These options are set on the Raster Snapping Options dialog box.
Set the maximum line width value to 7. This setting will ensure that you are able to snap to raster cells that represent the lot boundaries. Click the Editor menu, point to Snapping, then click Snapping Window.
Click the plus sign next to Raster to expand it. Check the Centerlines and Intersection options for raster snapping. You can close the window when you are done. Now, you need to turn on SnapTips, which are pop-up messages that give you information on the type of snapping that is active as you move your pointer around the map. Click the Editor menu, point to Snapping, then click Options. Check Show SnapTips. Creating line features by tracing raster cells Now that you have set up your raster snapping environment, you are ready to begin tracing the raster cells.
You will use the Vectorization Trace tool for this step. Click Bookmarks and click Trace lines to set the current view to the edit area of the exercise. When the display refreshes, you should see the trace area. Click the ParcelLines line feature template in the Create Features window. This sets up the editing environment to create new features in that layer using the default attributes for that template.
Click Vectorization Trace tool on the ArcScan toolbar. Move the pointer until it snaps to the intersection of the lot boundaries and click to start tracing. Point the Vectorization Trace tool downward and click to start creating the line feature. Continue to point and click with the Vectorization Trace tool to trace the exterior boundary of the lots. Once you have finished tracing around the lot boundaries, press F2 to finish the sketch.
A line feature now represents the exterior boundaries of the scanned parcel lots. Creating polygon features by tracing raster cells Now that you have successfully traced raster cells to create line features, you will create polygon features using the Vectorization Trace tool.
Zoom to the bookmarked extent called Trace polygons to get a better view of the area that will be traced. Click Bookmarks and click Trace polygons.
Click the ParcelPolygons polygon feature template in the Create Features window. You must change the active feature template to ParcelPolygons to create polygon features while tracing. Click the Vectorization Trace tool on the ArcScan toolbar.
Move the pointer until it snaps to the lower-left corner of lot and click to start tracing. Point the arrow toward the lower-right corner of the lot and click to start creating the segments of the polygon feature. Continue to trace the lot boundary in a counterclockwise direction. When the cursor has returned to the starting point of the trace, press F2 to complete the polygon. Once you have finished tracing the raster cells, you can stop editing and complete the exercise by saving your edits.
Click the Editor menu on the Editor toolbar and click Stop Editing. Click Yes to save your edits. To continue to the next exercise in the ArcScan tutorial, click Exercise 2: Automatic vectorization. In this exercise you learned how to set the raster snapping options and environment, snap to raster cells, and trace raster cells to create new line and polygon features.
These steps covered the main components of the raster tracing process. The next exercise will show you how to edit a raster layer and automatically generate features for an entire raster layer using the batch vectorization tools. Related topics.
Meztirisar Exercise 1: Interactive vectorization Use various tools to create a geometry. To view a copy of this More information. Introduction to Microsoft Excel Microsoft Excel Introduction to Microsoft Excel Excel is an electronic spreadsheet to organize your data arrcscan rows and columns. Automatic vectorization Copyright Esri. Hold down Ctrl More information. A line feature now represents tuyorial exterior boundaries of the scanned parcel lots. Table of Arrcscan About the Geocoding tutorial You will begin by starting ArcMap and loading a map document that contains the raster dataset and two shapefiles.
Exercice 2 : Vectorisation automatique
Exercise 1: Interactive vectorization