DJI Terra Upgrade and Maintenance fee (1 device)
959.00
Tax included
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
DJI Terra
Make the World Your Digital Asset
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.
Area Mapping1
3D Models
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.
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.
400 photos/1GB 2
(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 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, including route calculation, precise fusion of point cloud and visible light data, optimization of point cloud accuracy, ground point extraction, DEM generation, and mission report output.
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.
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
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 Planning11
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 screen to enable better waypoint selection and more efficient flight route planning, automating inspection workflows.
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.
Step 1
Step 2
Step 3
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 region. 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
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.
Annotation and Measurement
Annotation
Photo Inspection
Mission Planning12
Waypoints Mission Planning
Create efficient flight paths using predefined waypoint actions and adjustable parameters like altitude, speed, gimbal pitch angle, aircraft heading and more. For more complex and tight missions that require high attention to detail, use 3D Flight Visualization to design and simulate tasks on existing 3D models.
Area Mission Planning
With just a few taps on the screen, you can automate complex missions, allowing you to seamlessly capture imagery which can be processed to produce a variety of maps and models for further analysis, and to aid decision-making.
Oblique Mission Planning
When accuracy is essential and details are vital to your critical operations, Oblique lets you capture a rich 3D model data set by adjusting the angle of the camera at a tilted angle, giving you an extra crisp view of the asset.
Corridor Mission Planning
Create automated flight missions around roads and railways by simply drawing a line on the map. Adjust mission settings to change the total area mapped, giving you the flexibility to choose between creating high-definition 2D maps and 3D models or quick overviews.
Digitize the World Around You
Surveying and Mapping
A groundbreaking aerial survey solution that takes automation and data utilization to a whole new level, delivering unparalleled cost benefits and efficiency to mapping professionals.
Transforming the Power Industry
The refined modeling of power cables, poles, transmission towers, and other infrastructure revamps automated inspections and galvanizes the digital transformation of electrical grids.
Public Safety
DJI Terra facilitates customers in the public safety sector in make scientific decisions with advanced 3D situational awareness and by harnessing key on-site information.
Revolutionizing Oil and Gas
DJI Terra plays a crucial role in site management, pipeline inspection, and prospecting operations, by improving productivity while reducing business costs, bringing unprecedented change to the technology of the energy industry.
Examples
Japan is Protecting its Cultural Heritage with Drone Data and Mapping
Automated Substation Inspection with Drones by China Southern Power Grid
Automated Drone Bridge Inspection With PipeChina
Altametris accurately captured the 3D map of a railway site in just 20 minutes
How Drone LiDAR Inspection Enabled Safe Demolition of Cooling Towers
Mapping the Maling River Corridor: A Race Against Time
Terra License Plans
| Feature/Version | Agriculture | Pro | Electricity | Cluster | Education |
|---|---|---|---|---|---|
| Real-time 2D Mapping | ✔ | ✔ | ✔ | ✔ | ✔ |
| Agricultural application | ✔ | ✔ | ✔ | ✔ | ✔ |
| 2D Reconstruction (Field) | ✔ | ✔ | ✔ | ✔ | ✔ |
| 2D Multispectral Reconstruction | ✔ | ✔ | ✔ | ✔ | ✔ |
| 2D Reconstruction (Urban) | - | ✔ | ✔ | ✔ | ✔ |
| KML file import | - | ✔ | ✔ | ✔ | ✔ |
| Output Coordinate System | - | ✔ | ✔ | ✔ | ✔ |
| ROI Reconstruction | - | ✔ | ✔ | ✔ | ✔ |
| Image POS import | - | ✔ | ✔ | ✔ | ✔ |
| Multi-GPU Reconstruction | - | ✔ | ✔ | ✔ | ✔ |
| 3D Reconstruction | - | ✔ | ✔ | ✔ | ✔ |
| 3D Mission planning | - | ✔ | ✔ | ✔ | ✔ |
| Real-time 3D Mapping | - | ✔ | ✔ | ✔ | ✔ |
| GCPs | - | ✔ | ✔ | ✔ | ✔ |
| LiDAR Point Cloud Accuracy Optimization | - | ✔ | ✔ | ✔ | ✔ |
| LiDAR Point Cloud Smoothing | - | ✔ | ✔ | ✔ | ✔ |
| Categories of ground points of LiDAR point cloud | - | ✔ | ✔ | ✔ | ✔ |
| Electricity Application | - | - | ✔ | ✔ | ✔ |
| Detailed Inspection | - | - | ✔ | ✔ | ✔ |
| Cluster Computation | - | - | - | ✔ | ✔ |
| Bind Device16 | 3 devices | 1 device | 1 device | 1 Device 3 nodes | Contact Us |
| Authorization mode13 | Online | Online/Offline | Online | Online | Online |
| Validity Period | 1 year | 1 Year / Permanent14 (Free update for the first year, paid update from the next year) | 1 year | Permanent14 (Free update for the first year, paid update from the next year) | Permanent |
Notes:
1. System requirements: Windows 7 or above (64 bit, 32GB RAM), NVIDIA graphics card (4GB) with compute capability 3.0 or above.
2.Processing capability of 400 images/1GB free memory is based on 80% overlap in heading, 70% overlap in side direction, downward looking image data with GPS information, which may vary depending on image overlap and scene texture.
3. The capability to process 6,000 images per 1 GB of free memory is based on the test results using aerial photographic data with 80% frontal 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.
4. Image captured by the Phantom 4 RTK and processed at high resolution through high-performance workstations.
5. Image captured by the Phantom 4 RTK and processed at high resolution through five high-performance worker devices.
6. Reconstruction accuracy without GCPs: Horizontal = 1 cm + 1~2 times the GSD; Vertical = 2 cm + 1.5-3 times the GSD. The accuracy data were derived from a large amount of actual data generated by the Phantom 4 RTK and Zenmuse P1. The actual accuracy can be affected by RTK positioning precision, on-site lighting, camera lenses, and route planning. Vertical accuracy refers to reconstruction accuracy for oblique images.
7. Image captured by the Phantom 4 RTK and processed at high resolution through high-performance workstations.
8. Image captured by the Phantom 4 RTK and processed at high resolution through three high-performance worker devices.
9. Aircraft supported: DJI Mavic 3 Multispectra, P4 Multispectral
Multispectral Imaging Bands supported:
Blue (B): 450 nm ± 16 nm, green (G): 560 nm ± 16 nm, red (R): 650 nm ± 16 nm, red edge (RE): 730 nm ± 16 nm, near-infrared (NIR): 840 nm ± 26 nm
Vegetation indices supported: NDVI, GNDVI, NDRE, LCI, OSAVI.
10. This feature is supported by the Phantom 4 RTK (remote controller with screen), Phantom 4 Pro V2.0+, and Phantom 4 Pro V2.0 only.
11. Only the following models support the import use of the Detailed Inspection mission routes:
(1)Phantom 4 RTK (remote controller without screen)
(2)Matrice 300 RTK + H20 Series Payloads
(3)Mavic 2 Enterprise Advanced
(4)Matrice 30 Series
(5)Mavic 3 Enterprise Series
12. Compatible with the Phantom 4 RTK (remote controller with screen), Phantom 4 Pro V2.0, Phantom 4 Pro + V2.0, Phantom 4 Pro, Phantom 4 Advanced, and Phantom 4.
13. The reconstruction of 500+ photos is not supported by the Education.
14. The following online features are not available in Offline Mode:
(1)Unlocking GEO Zones
(2)Map loading and location searching
(3)Without logging into a DJI account, some flight control functions in DJI Terra will be restricted.
15. Permanent certificates can be upgraded to any software version within one year after activation and binding. The paid update period shall start after one year. An upgrade and maintenance fee must be paid to upgrade to any software version released during the paid update period.For more information on the upgrade fee for the Permanent version, please refer to the "DJI Terra Permanent Version Upgrade & Maintenance Fee Rules".
16. Free trial licenses that are valid for 1-6 months do not support unbinding.
1 Item
Specific References
New
| Дрон DJI Matrice 30 | |
|---|---|
| Размери (разгънат, без пропелери) | 470×585×215 mm (Д×Ш×В) |
| Размери (сгънат) | 365×215×195 mm (Д×Ш×В) |
| Диагонал | 668 mm |
| Тегло (с две батерии) | 3770 ± 10 g |
| Макс. тегло при излитане | 4000 g |
| Работна честота[1] |
|
| EIRP |
|
| Точност при кръжене (безбетрено или с лек бриз) |
|
| Точност на позициониране на RTK (RTK е активиран и фиксиран) |
|
| Макс. ъглова скорост | Pitch: 150°/sec., Yaw: 100°/sec. |
| Макс. ъгъл на наклона | 35° (N-режим и предна Vision система е активирана: 25°) |
| Макс. скорост на издигане / спускане | 6 m/s, 5 m/s |
| Макс. скорост при спускане под наклон | 7 m/s |
| Максимална скорост при хоризонтално летене | 23 m/s |
| Максимална височина над морското равнище (без допълнителен полезен товар) |
|
| Макс. устойчивост при вятър |
|
| Максимално време на кръжене[2] | 36 минути |
| Максимално полетно време[2] | 41 минути |
| Модел на мотора | 3511 |
| Модел пропелери |
|
| IP защита[3] | IP55 |
| GNSS | GPS+Galileo+BeiDou+GLONASS(GLONASS се поддържа само когато RTK модулът е активиран) |
| Работна температура | -20° до 50°C |
| Стабилизираща стойка | |
| Ъглова вибрационна зона | ±0.01° |
| Обхват на контролиране |
|
| Механичен обхват |
|
| Zoom камера | |
| Сензор | 1/2" CMOS, ефективни пиксели: 48M |
| Обектив |
|
| Широкоъгълна камера | |
| Сензор | 1/2" CMOS, ефективни пиксели: 12M |
| Обектив |
|
| FPV камера | |
| Резолюция | 1920×1080 |
| DFOV | 161° |
| Честота на кадрите | 30 fps |
| Лазерен модул | |
| Дължина на вълната | 905 nm |
| Максимална мощност на лазера | 3.5 mW |
| Ширина на единичен импулс | 6 ns |
| Точност на измерване | ± (0,2 m + D×0,15%) D е разстоянието до вертикална повърхност |
| Обхват на измерване | 3-1200 m (0,5×12 m вертикална повърхност с 20% отразяваща способност) |
| Vision системи | |
| Обхват на засичане на препятствия |
|
| FOV | 65° (H), 50° (V) |
| Работна среда | Повърхност с ясна текстура и подходящо осветление (andgt; 15 lux) |
| Инфрачервени сензорни системи | |
| Обхват на засичане на препятствия | 0.1 до 10 m |
| FOV | 30° |
| Работна среда | Големи, дифузни и отразяващи препятствия (рефлективност andgt;10%) |
| TB30 Интелигентна полетна батерия | |
| Капацитет | 5880 mAh |
| Напрежение | 26.1 V |
| Тип батерия | LiPo 6S |
| Напрежение | 131.6 Wh |
| Нетно тегло | Приблизително 685 g |
| Работна температура | -20° до 50°C |
| Температура за съхранение | 20° до 30°C |
| Температура за зареждане | -20° до 40°C (Когато температурата е по-ниска от 10°C, функцията за самозагряване ще се активира автоматично. Зареждането при ниска температура може да съкрати живота на батерията ) |
| Вид батерия | LiNiMnCoO2 |
| Допълнителни светлини | |
| Ефективно разстояние на осветяване | 5 m |
| Тип на осветление | 60 Hz, solid glow |
| Дистанционно управление | |
| Екран | 7.02 инчов LCD сензорен екран, с резолюция 1920×1200 пиксела и висока яркост на 1200 cd/m2 |
| Вътрешна батерия |
|
| Външна батерия (Интелигентна батерия WB37) |
|
| Работно време[5] | Вътрешна батерия: прибл. 3 часа18 минути Вътрешна батерия + външна батерия: приблизително 6 часа |
| IP защита[3] | IP54 |
| GNSS | GPS+Galileo+BeiDou |
| Работна температура | -20° до 50°C |
| O3 Enterprise | |
| Работна честота[1] | 2.4000-2.4835 GHz, 5.725-5.850 GHz |
| Максимално разстояние на предаване (без препятствия, без смущения) | 2.4000-2.4835 GHz: 15 km (FCC), 8 km (CE/SRRC/MIC) |
| Максимално разстояние на предаване (със смущения) |
|
| EIRP |
|
| Wi-Fi | |
| Протокол | Wi-Fi 6 |
| Работна честота[1] | 2.4000-2.4835 GHz, 5.150-5.250 GHz, 5.725-5.850 GHz |
| EIRP |
|
| Bluetooth | |
| Протокол | Bluetooth 5.1 |
| Работна честота | 2.4000-2.4835 GHz |
| EIRP | |
| Интелигентна акумулаторна станция BS30 | |
| Размери | 353×267×148 mm |
| Нетно тегло | 3.95 kg |
| Съвместими батерии |
|
| Вход | 100-240 VAC, 50/60 Hz |
| Изход |
|
| Изходяща мощност | 525 W |
| USB-C порт | Макс. изходна мощност на 65 W |
| USB-A порт | Макс. изходна мощност на 10 W (5 V, 2 A) |
| Консумация на енергия (когато не зареждате батерията) | andlt; 8 W |
| Изходяща мощност (при загряване на батерията) | Приблизително 30 W |
| Работна температура | -20° до 40°C |
| IP защита[3] | IP55 (при правилно затворен капак) |
| Време за зареждане[6] |
|
| Защита |
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| Друго | |
| Бележки |
|
10 other products in the same category:
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