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DJI Terra Pro Oversea Upgrade (Pro online version 1 device upgrade to offline version 1 device)
Out of Stock
6941565986313
Specifications:
- Digitize the world around you
- Choose between various flight mission types
- Modern way to collect and analyse data
- Innovative mapping solutions
- Seamless Connection with DJI Drones
More info
DJI Terra
Make the World Your Digital Asset
DJI Terra is 3D modeling software equipped with next-generation reconstruction technologies, including 3D Gaussian Splatting. It supports accurate and efficient 2D and 3D reconstruction from visible light imagery, and processes data collected by DJI LiDAR. When integrated with DJI drones, Terra delivers a unified hardware and software solution for data acquisition, processing, and application, streamlining aerial surveying workflows for greater efficiency and accuracy.
Photorealistic Gaussian Splatting
Stunning, Photo-Quality 3D Models
Terra introduces Gaussian Splatting, which quickly generates detailed and realistic 3D models from photos, accurately restoring diverse scenes such as cultural relics, architectural projects, urban blocks, and scenic gardens. Compared to visible-light oblique photogrammetry technology, 3D Gaussian Splatting significantly enhances the representation of complex elements like fine structures, transparent and reflective objects, and vegetation. In addition to producing more natural rendering effects, this technology can also generate distortion-free orthomosaics, further improving the quality of the results.
Twice as Efficient for Large-Scale Scene Modeling[1]
Terra processes approximately 500 photos per hour[2], allowing a single-block modeling process [3] to be completed in just 30-40 minutes[2]. In large scenes with over 10,000 photos, the reconstruction speed is twice that of Terra Mesh[1], leading the industry. The strong processing capability helps users obtain high-quality 3D data more quickly, significantly shortening project timelines and enabling rapid modeling and application in large-scale scenes.
City-Scale Reconstruction for Complex Scenarios
With efficient resource utilization, Terra supports city-scale scene reconstruction using Gaussian Splatting. Approximately 300-400 photos can be processed per 1 GB of available RAM[4], and a single processing task can handle up to 30,000 photos[4]. This capability fully meets the 3D modeling needs of large-scale, complex environments such as urban spaces, industrial parks, and infrastructure, providing a solid data foundation for urban digitalization and smart city management.
Simple Operation on Entry-Level Hardware
Terra prioritizes user experience by offering a streamlined, intuitive workflow and low hardware requirements[5]. It requires only 4 GB of GPU memory and 32 GB of RAM for smooth operation, eliminating the need to purchase high-performance computers[5]. This greatly lowers the technical threshold for Gaussian Splatting, making advanced 3D reconstruction truly accessible to a broader range of industries.
Universal Data Formats for Greater Flexibility
Terra supports one-click export to mainstream 3D Gaussian Splatting data formats such as PLY and B3DM (3D Tiles). The results can be seamlessly integrated into third-party platforms across industries, including surveying and mapping, gaming, and film production. Standardized data outputs facilitate efficient data reuse and sharing across multiple fields and platforms, allowing users to expand flexibly into diverse application scenarios.
Photogrammetry, Trusted Precision
High-Fidelity 2D/3D Models
Terra rapidly generates high-precision 3D models, point clouds, true digital orthophoto maps (TDOM), and digital surface models (DSM) from photos. Users can adjust the number of meshes in 3D models and the resolution of 2D maps. The software also supports export to various industry-standard formats for seamless integration and downstream applications.
High-Accuracy 1:500 Mapping
Terra achieves centimeter-level mapping accuracy without the need for ground control points by deeply integrating data collected by DJI mapping drones (equipped with RTK modules) with intelligent algorithms. It supports the output of various results, including 3D mesh models, point clouds, and 2D maps. For DJI Enterprise mapping drones like Matrice 4E, Terra offers dedicated accuracy enhancements. Even in complex environments, Terra consistently meets 1:500 mapping standards, supporting the demanding requirements of engineering surveys, topographic mapping, and more.
Fast, On-Site Results
Speed is central to Terra's design. With exceptional reconstruction capabilities, it processes data quickly and efficiently. For smaller projects, results can even be generated on-site in real time. Terra supports large-scale 3D reconstruction, processing up to 30,000 photos on a standalone workstation within three days[6], or delivering results in just 21 hours using cluster reconstruction[7]. For 2D reconstruction, a standalone workstation can process 5000 photos in under two hours[6], while cluster reconstruction reduces the processing time to 80 minutes[7]. This high level of efficiency ensures projects are completed on schedule and to rigorous quality standards, enabling industry users to meet the demands of urgent and high-intensity tasks with confidence and reliability.
LiDAR Reconstruction, Broad Applications
2D-3D Data Fusion-Based Modeling
Terra enables deep integration of LiDAR and visible light data. With a single Zenmuse LiDAR acquisition, users can simultaneously generate high-precision point clouds, 2D maps, and 3D mesh models. This data fusion approach significantly enhances model completeness and detail, especially in environments with complex structures such as bridges and substations. It meets the needs of industries including power energy, transportation, and infrastructure.
Centimeter-Level Accuracy
Leveraging advanced positioning technologies such as RTK and PPK, Terra processes point cloud data from the Zenmuse LiDAR to achieve survey-grade, centimeter-level accuracy without the need for ground control points. This ensures reliable data support for high-standard mapping and engineering monitoring applications.
Rich Usage Scenarios
Terra automatically generates waypoints and flight routes based on one or more points selected in a local 3D reality model or point cloud, or a third-party point cloud. A simulated camera view that includes the selected point is displayed on the screen, enabling more precise waypoint selection and efficient flight route planning to automate inspection workflows. In addition to previously supported drone models[8], Terra now also supports Matrice 4T and Matrice 4TD, addressing the detailed inspection needs of a broader range of industries.
Large-Scale Reconstruction
Terra efficiently processes large-scale LiDAR point cloud data, handling approximately 1 GB of point cloud data per 1 GB of available RAM. This enables seamless management of extensive projects. A computer with 32 GB of RAM can process up to 120 GB of data[5], covering an area of approximately 10 square kilometers[9]. For city-scale data processing, workstations with 128 GB of RAM is supported[5][10][11].
Multispectral Reconstruction for Agriculture
Vegetation Index Maps
Leverage multispectral data from DJI Mavic 3 Multispectral and Phantom 4 Multispectral to generate vegetation index maps, including NDVI and NDRE, for actionable insights into plant growth and health. Terra also supports radiometric correction and the creation of reflectance maps for remote sensing research.
Prescription Maps for Agriculture
Terra enables the creation of accurate prescription maps using multispectral or visible light data. Simply select your crop type (Field or Fruit Tree) to quickly generate 2D maps and optimized route plans for DJI Agras drones. Terra also supports the generation of variable-rate spraying prescription maps, which can be used with DJI's Agras drones to improve crop yields while reducing costs.
Cluster Reconstruction, Superior Efficiency
Massive Scale Capability
Terra is designed for ultra-large-scale mapping scenarios, such as smart cities. By leveraging cluster reconstruction technology, it overcomes the limitations of single-machine performance and enables rapid processing of massive aerial survey datasets. With multi-GPU and multi-node collaboration, Terra can process 6000 photos with just 1 GB of available RAM[12], making city-scale 3D modeling and large-area aerial survey tasks easily manageable.
Lightning-Fast Performance
Experience lightning-fast reconstruction with Terra's cluster collaboration. With just five worker devices, Terra completes high-resolution 3D reconstruction of 30,000 photos in only 21 hours[13]. Users can flexibly scale the number of worker devices as your project grows, achieving exponential gains in efficiency.
Integrated Aerial Survey (Hardware + Software)
Hardware Synergy for Multi-Scene Aerial Surveying
Terra is deeply compatible with DJI Enterprise drones and supporting equipment. When used with Matrice 4E, Matrice 400, Zenmuse P1, Zenmuse L2, and D-RTK 3, Terra delivers cost-effective visible light and professional-grade LiDAR mapping solutions, ideal for a wide range of aerial survey applications.
DJI Terra and DJI Modify Seamless Workflow
With one-click activation, Terra enables direct handoff to DJI Modify for instant generation of model processing files and post-editing. As DJI's first intelligent 3D mesh and point cloud editing software, Modify offers features such as point cloud smoothing, noise reduction, downsampling, and classification. It also generates terrain results that can be easily imported into industry-standard software such as GIS and CAD. Paired with DJI Enterprise drones and DJI Terra, this forms a comprehensive solution from aerial surveying and modeling to model editing and sharing, meeting the needs of surveying and mapping, firefighting, emergency response, and transportation.
More Highlights
PPK Calculation
DJI Terra features robust built-in PPK (Post-Processed Kinematic) capabilities, ensuring high-precision aerial survey results in any environment. The platform supports local PPK for visible light imagery, local PPK and cloud-based PPK[14] for LiDAR. This guarantees centimeter-level positioning accuracy even in areas with limited network connectivity or where RTK is unavailable.
Control Points and Check Points
For visible light reconstruction, users can import and mark control and check points to precisely calibrate models and point cloud data. Terra supports semi-automatic point picking, with sub-pixel accuracy in automatic recognition, greatly improving the efficiency of Ground Control Point (GCP) marking and reducing manual workload. The check point feature allows users to verify reconstruction accuracy at any stage, ensuring data reliability.
Comprehensive Coordinate System Support
With more than 8500 built-in coordinate systems, Terra supports local systems, seven-parameter transformations, and PRJ file imports, offering extensive options for coordinate system settings. The system intelligently recommends the optimal coordinate system based on user location, ensuring seamless integration of output data with local standards and enabling precise, customizable data exports.
Annotation and Measurement
Terra provides intuitive annotation and measurement tools, supporting accurate measurement of points, lines, areas, and volumes. By clicking any part of the 3D model, users can quickly view the corresponding camera position and original images. This allows smooth switching between the model and site images, making detailed inspection and site verification more efficient. Multiple export formats are supported to meet professional needs of engineering, surveying, and management applications.
Digitize the World Around You
Surveying and Mapping
Public Safety
Electricity
Oil and Natural Gas
Water Conservancy
Roads and Bridges
Gaming
Film & Television
Terra License Plans
| Feature/Version[15] | Agriculture | Standard | Flagship | Cluster | Education[16] |
|---|---|---|---|---|---|
| Agricultural Application | ✔ | ✔ | ✔ | ✔ | ✔ |
| 2D Map Reconstruction (Field/Fruit Tree) | ✔ | ✔ | ✔ | ✔ | ✔ |
| 2D Map Reconstruction (Urban) | - | ✔ | ✔ | ✔ | ✔ |
| 2D Multispectral Reconstruction | ✔ | ✔ | ✔ | ✔ | ✔ |
| 3D Mesh Reconstruction | - | ✔ | ✔ | ✔ | ✔ |
| LiDAR Point Cloud Reconstruction | - | ✔ | ✔ | ✔ | ✔ |
| Terrain Result | - | ✔ | ✔ | ✔ | ✔ |
| Gaussian Splatting | - | - | ✔ | ✔ | ✔ |
| Electricity Application[17] | - | - | ✔ | ✔ | ✔ |
| Cluster Computation | - | - | - | ✔ | - |
| Bind Device | 3 Devices | 1 Device | 1 Device | 1 Device 3 Nodes | 10 Devices |
| Authorization Mode[18] | Online | Online/Offline | Online/Offline | Offline | Online |
| Validity Period | 1 Year | 1 Year/Permanent[19] | 1 Year/Permanent[19] | Permanent[19] | Permanent[19] |
- Notes:
- When processing large-scale datasets with over 10,000 images and setting the reconstruction quality to "High," our product achieves a 100% increase in reconstruction efficiency compared to DJI Terra's traditional Mesh reconstruction. This data is based on 14,021 photos collected by Zenmuse P1, tested on equipment with an Intel® Core™ i9-12900K processor, NVIDIA GeForce™ RTX 3080 Ti graphics card, and 128 GB of RAM. Actual reconstruction efficiency may vary due to equipment performance, photo quality, and other factors, and is for reference only.
- This data is based on photos captured by DJI Matrice 4E and processed at high resolution on a high-performance Windows workstation with 64 GB of RAM. Actual reconstruction efficiency may vary depending on device performance, photo quality, and other factors. This information is provided for reference only.
- The number of blocks is determined by both the total number of images and the survey area. For terrain-following flight missions with 70% side overlap and 80% forward overlap, approximately 300 images are grouped into one block. This figure is based on data collected using DJI Matrice 4E. In actual reconstruction workflows, the optimal block size may vary depending on the texture density and pixel resolution of the images.
- This data is based on 20-megapixel photos processed at high resolution on a high-performance Windows workstation with 128 GB of RAM. Actual reconstruction scale may vary depending on device performance, photo quality, and other factors. This information is provided for reference only.
- System requirements for DJI Terra V5.0.0: Windows 10 or above (64-bit), 32 GB of RAM, and an NVIDIA graphics card with at least 4 GB of GPU memory and compute capability 6.1 or above. It is recommended to use a graphics card with overall performance not lower than the NVIDIA GeForce GTX 1050Ti.
- This data is based on photos captured by DJI Matrice 4E and processed at high resolution on a high-performance Windows workstation with 128GB RAM. Actual reconstruction efficiency may vary depending on device performance, photo quality, and other factors. This information is provided for reference only.
- This data is based on photos captured by DJI Matrice 4E and processed at high resolution on a high-performance Windows workstation with 128GB RAM and a cluster environment consisting of three high-performance nodes. Actual reconstruction efficiency may vary depending on device performance, photo quality, and other factors. This information is provided for reference only.
- Previously supported models include: Phantom 4 RTK (remote controller without screen), Matrice 300 RTK + the Zenmuse H20 Series payloads, Mavic 2 Enterprise Advanced, the Matrice 30 Series, and the Mavic 3 Enterprise Series.
- The estimation standard is based on data collected by Zenmuse L2: two flights per square kilometer, resulting in approximately 12 GB of high-density point cloud data.
- Equivalent to Zenmuse L2 data from 12 flights covering 30 square kilometers.
- DJI Terra V4.0.0 or later is required.
- The capability to process 6000 images per 1 GB of available RAM is based on test results using aerial photographic data with 80% forward overlap, 70% side overlap, top-down shooting, and GPS information. Results can vary based on how much your images overlap and how complex the scene is.
- Image captured by Phantom 4 RTK and processed at high resolution through five high-performance nodes.
- Cloud-based PPK is only supported in network environments within Chinese Mainland.
- For more information about features, refer to the DJI Terra Feature List.
- The reconstruction of 500+ photos is not supported by the Education version of Terra.
- Electricity Application includes capabilities such as detailed inspection and visible-light power line scene modeling.
- The following online features are not available in Offline Mode:
- Unlocking GEO Zones;
- Map loading and location searching;
- Bug Report.
- Please refer to the DJI Software Terms of Use.