When an editing tool is deactivated, you can set the default tool to be either the Explore tool or the Select tool.See what's new in analysis and geoprocessing. Geoprocessing tools that open in a floating window maintain their size and placement when you reopen them.On context menus, you can run commands by typing the underscored letter of the command name.You can access items on your computer from the Catalog pane or a catalog view without adding a folder connection.Optimizations in speed and memory use have been made to geoprocessing tools such as Distance Accumulation, Distance Allocation, and Multiscale Geographically Weighted Regression (MGWR).Tracing or updating subnetworks in the Find Subnetworks pane is faster.Complex trace operations run more quickly.Processing speed for large-scale layer enrichments in Business Analyst may be up to three times faster than in ArcGIS Pro 3.0.Some examples are listed below you can find more throughout the topic and elsewhere in the help. Performance and productivity have been improved in ArcGIS Pro 3.1. Reality product generation-Create photogrammetric products such as DSMs, True Orthos, 2D DSM meshes, 3D point clouds, and 3D meshes.ģD mesh with building facades generated from overlapping drone imagery.Block adjustment-Perform block adjustment, tie point generation, and add ground control points (GCPs) to a workspace.Reality workspace creation-Create workspaces for drone imagery, digital aerial imagery, and imagery from existing mosaic datasets.The tools and capabilities are described in three main categories: Wizards guide you through workspace and product generation workflows to create full-resolution DSMs, True Orthos, 2D DSM meshes, dense 3D point clouds, and 3D meshes with building facades. The tools and capabilities in the new ArcGIS Reality for ArcGIS Pro extension allow you to photogrammetrically correct and process drone and digital aerial imagery to produce high-fidelity 3D and 2D products. Within the magnifier window, the active tool for navigation, selection, measurements, and editing is supported. In 2D maps, you can open a magnifier window to help with workflows such as seeing what content is visible at a larger scale, and using precise snapping when digitizing new features. This new functionality reduces the need for multiple label classes, and can be used in 2D maps and vector tiles. This sizing helps to reduce visual density at smaller scales while retaining an appropriate relative size at larger scales. Scale-based label sizing allows you to smoothly change the text size of labels as you move across the scales of your map. You can use this new capability to query, visualize, and analyze 3D content across desktop and web clients. For example, you can use the time slider to visualize building construction dates for a time range or apply a definition query to see which trees have been inspected within the past year. You can time-enable point, 3D object, or building scene layers to visualize 3D content temporally. All layout elements are preserved and can be automatically resized and repositioned. Additionally, the new Duplicate Layout command creates a new layout at a different page size from an existing layout. When you change the page size or orientation of a layout, you can automatically resize and reposition layout elements. In this example, a catalog layer contains references to a shapefile, several images, and a geodatabase feature class. You can apply additional extent filters, symbolize footprint boundaries, and add field attributes to the dataset items to help you visualize layers of interest. The catalog layer is used to visualize and explore items as an organized group of layers based on the extent of a view. A catalog layer is a collection of item references to local and shared datasets, layers, services, and workspaces from various work environments. You can create and draw catalog layers in maps and scenes. The Highlights section includes featured new functionality.
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