DJI Terra is 3D model reconstruction software that has photogrammetry as its core technology. It supports a range of accurate and efficient 2D and 3D reconstruction of visible light, and data processing through DJI LiDAR. DJI Terra is a perfect match for DJI Enterprise drones and payloads. It works in conjunction to build a complete application solution that caters to verticals such as land surveying and mapping, power transmission, emergency services, construction, transportation, and agriculture.
Realistic 3D models can be generated in three resolutions—high, medium and low. Water surfaces in the model are automatically optimized through AI technology, and the formats commonly used in the industry are exported for image reconstruction in diverse scenarios, such as surveying and mapping, accident sites, power grid equipment, and progress-tracking for construction projects.
Model Samples
400 photos/1GB 2
(single computer)
Scale
6,000 photos/1GB3
(cluster processing)
30,000 photos/3 days4 (single computer)
Efficiency
30,000 photos/21 hours5 (cluster processing)
Accuracy
Centimeter-level accuracy6
2D Maps
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.
Model Samples
400 photos/1GB2
(single computer)
Scale
6,000 photos/1GB3
(cluster processing)
5,000 photos/2 hours7 (single computer)
Efficiency
5,000 photos/80 minutes8 (cluster processing)
Accuracy
Centimeter-level accuracy6
LiDAR
With just one click, you can perform highly accurate processing of the point cloud data captured by the Zenmuse LiDAR in DJI Terra, including route calculation, accurate merging of point cloud and visible light data, optimization of point cloud accuracy, extraction of ground points, and generation of fieldwork reports.
Multispectral9
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.
Model Samples
More highlights
Real-time 3D Mapping10
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 Mapping10
Detailed Inspection Mission Planning11
Seamless Workflows, Accurate Results
Step 1 Step 2 Step 3
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.
Meet and exceed your project standards
Incorporate POS data, GCPs, or both sets of data to create georeferenced maps and models with enhanced accuracy directly in the target coordinate system required by the project. Convert the coordinates of your maps and models into 8500+ major coordinate systems by simply selecting the output that fits your needs. View a quality report of your mission to ensure the results meet your accuracy standards. Support the auto GCPs for automatic identification of more photos with marking points by simply marking one photo. With the Region of Interest (ROI) and block, image reconstruction can be performed to specific target regions. In turn, this saves processing time and improves efficiency, while generating a clearer model or point cloud, and completing the large-scale block reconstruction and montage.
POS GCPs ROI
Annotation and Measurement Annotation Photo Inspection
Intuitive and Effortless
Acquire key dimensions across an array of terrains with easy-to-use analysis tools that enable you to obtain a variety of measurement data based on linear, area, and volumetric measurements.
Edit labels of measurements on existing models, which can be used for reporting and improving communication throughout ongoing projects.