Applications
Mapping Toolbox™ software enables you to import, process, visualize, and export geospatial data. These examples show geospatial capabilities in autonomous, wireless, radar, image processing, and aerospace applications.
Featured Examples
Build Pikes Peak RoadRunner 3D Scene Using RoadRunner HD Map
Build a RoadRunner 3D scene for Pikes Peak, Colorado using MATLAB® functions.
Visualize UAV Flight Path on 2-D and 3-D Maps
Simulate an unmanned aerial vehicle (UAV) flight using synchronized geographic axes and a geographic globe.
Coverage Maps for Satellite Constellation
Display coverage maps for a region of interest using a satellite scenario and 2-D maps.
Visualize Viewsheds and Coverage Maps Using Terrain
Display the viewshed (visible areas) and coverage area for a region of interest using satellite imagery and terrain data.
Visualize Coverage Maps over Lunar Terrain Using Ray Tracing
Create a coverage map for a base station on the surface of the Moon using terrain data and ray tracing analysis.
Radar Performance Analysis over Terrain
The performance of a radar system can depend on its operating environment. This example shows how radar detection performance improves as target elevation increases above the terrain.
Radar Vertical Coverage over Terrain
Define an L-band radar system in the presence of heavy clutter and visualize its three-dimensional vertical coverage over terrain.
Find Regions in Spatially Referenced Multispectral Image
Identify water and vegetation regions in a Landsat 8 multispectral image and spatially reference the image.
Export Point Cloud Segmentations to KML Files
Export segmented point cloud data to a Keyhole Markup Language (KML) files and read and visualize the KML data using different tools.
Process Large GeoTIFF File as Blocked Image
Efficiently apply and visualize image processing operations on a large GeoTIFF file using a low-resolution mask.
Crop and Mask Large GeoTIFF File Using Shapefile
Efficiently crop and mask a large GeoTIFF file using a shape from a shapefile.
Lunar Mission Analysis with the Orbit Propagator Block
Compute and visualize access intervals between the Apollo Command and Service module and a rover on the lunar surface. The module's orbit is modeled using Reference Trajectory #2 from the NASA report Variations of the Lunar Orbital Parameters of the Apollo CSM-Module [2]. This is a lunar orbit studied by NASA for the Apollo program. The example uses:
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