Area Mapping
3D Models
Generate realistic 3D models and point cloud results quickly from photos. AI technology now automatically optimizes water surfaces in the model. Users can now use Customized Mesh Simplification to simplify model meshes. Users can export formats commonly used in multiple industries for image reconstruction in diverse scenarios, such as surveying and mapping, accident sites, power grid equipment, and progress-tracking for construction projects. [2]7
400 photos/1GB [3] (single computer)
3D Models
6,000 photos/1GB [4] (cluster processing)
30,000 photos/3 days [5] (single computer)
Efficiency
30,000 photos/21 hours [6] (cluster processing)
Accuracy
Centimeter-level accuracy [7]
2D Maps
Rapidly generate high-precision True Digital Orthophoto (TDOM) and Digital Surface Model (DSM) from photos. The algorithm is optimized according to the different scenarios to significantly improve processing efficiency, effectively avoid image warping and deformation, and obtain detailed and accurate measurement results for all your target objects and survey areas. It meets the needs of various scenarios such as mapping, land surveying, natural resource and urban planning, emergency response, agricultural route planning, and more.
400 photos/1GB [3] (single computer)
Scale
6,000 photos/1GB [4] (cluster processing)
5,000 photos/2 hours [8] (single computer)
Efficiency
5,000 photos/80 minutes [9] (cluster processing)
Accuracy
Centimeter-level accuracy
LiDAR
With just one click, you can perform highly accurate processing of the point cloud data captured by the Zenmuse LiDAR in DJI Terra. The data undergoes trajectory computation and point cloud accuracy optimization, enabling the direct generation of various standard formats of 3D point clouds. After ground point classification, it can output DEM (Digital Elevation Model) and contour results. Importing control points allows for accuracy control, resulting in high-precision point cloud outputs. Quality reports and profile inspection functions facilitate point cloud quality analysis. In the event of unexpected RTK real-time differential data loss, the DJI Terra PPK function can still match offline base station data to reconstruct high-precision models.
Scale
1GB raw materials/1GB [10]
Efficiency
1GB raw data /1 minute [11]
Accuracy
Elevation accuracy 4cm [12] Plane accuracy 5cm [12]
Multispectral
Using multispectral data from DJI Mavic 3 Multispectral and P4 Multispectral, vegetation index maps including NDVI and NDRE can be produced to provide insight into plant growth and health, radiometric correction is supported and reflectance maps can be generated for remote sensing research. Prescription maps can be created for variable rate application using DJI’s Agras drones to improve crop yields while driving down costs.
Seamless Workflows,
Accurate Results
Unparalleled Efficiency and User Experience
A simple and intuitive interface that gets you flying in no time. Run reconstruction missions by employing multiple graphics cards simultaneously to improve efficiency.
Parameter Editing
Elevated Project Accuracy
Support for custom camera parameters and importing POS data to create georeferenced maps and models with enhanced accuracy directly in the target coordinate system required by the project.
Elevated Project Accuracy
In photogrammetry and point cloud reconstruction, support for control points enables more intelligent automatic point marking and correction.
Seven-Parameter Transformations
Elevated Project Accuracy
Built-in 8500+ result coordinate systems support local coordinate systems and seven-parameter transformations, offering a greater variety of coordinate system settings.
Intuitive and Effortless
Acquire key dimensions across an array of terrains with easy-to-use analysis tools that enable you to obtain various measurement data based on linear, area, and volumetric measurements.
Intuitive and Effortless
By setting ROI (Region of Interest), Block Splitting, and coordinate origins, you can plan two-dimensional and three-dimensional models with precision.
Intuitive and Effortless
Click anywhere on the model to rapidly display all the capture locations and images for that area. Quick switching between the model and images facilitates easy on-demand viewing of the site conditions and verification of specific details.
DJI Terra and DJI Modify
Seamless Workflow
With one click, DJI Terra can launch DJI Modify. DJI Terra can also easily generate files for model editing with another click. These simple steps make the subsequent model editing process quick and convenient. DJI Modify is DJI's first intelligent 3D model editing software. It features a streamlined and intuitive interface that is simple to use to complete 3D model editing efficiently. It accurately identifies floating parts, holes, and vehicles in the models. Mesh can be repaired with a single click, with true-to-life textures generated quickly, significantly simplifying the model editing process.
Paired with a DJI Enterprise drone and DJI Terra, it forms a comprehensive solution from aerial surveying, modeling, and model editing to sharing these models easily to meet operational needs in surveying and mapping, firefighting, emergency response, and transportation. Moreover, users can quickly share processed model results to the cloud without installing specific software and view models online via a shared link on the web or mobile platforms.
Easy Application Integration
DJI Terra supports output in common formats, including TIFF orthomosaic and elevation models, LAS point cloud format, and six common 3D model formats such as B3DM, OSGB, OBJ, as well as DXF and SHP contour formats. These results can be easily integrated into various GIS, CAD, and other third-party data application software, enabling a wide range of drone data industry applications.
More highlights
Real-time 3D Mapping
When efficiency is key, quickly render and visualize a 3D model of the mapped area. Make decisions based on the preliminary model and check for completeness immediately or plan 3D flights on-site.
Real-time Mapping
Quickly generate a 2D orthomosaic of the selected area in real-time. Not only is this ideal for creating detailed flight paths in remote areas but it’s also useful for time-sensitive missions that require quick decision-making on site.
Detailed Inspection Mission Planning
Automatically generate waypoints and flight routes based on one or more points selected in a local realistic 3D model or point cloud (or a third-party point cloud). A simulated camera view that includes the selected point is displayed on the screen to enable better waypoint selection and more efficient flight route planning, automating inspection workflows.
More Mission Planning
Now Terra supports Waypoints Mission Planning, Area Mission Planning, Oblique Mission Planning, and Corridor Mission Planning, meeting the mission planning needs for various common scenarios.