UgCS currently supports DJI: M600/600 Pro, M300, M200/210/210RTK, M100, Inspire 2/1/1Pro/Raw, Phantom 4/4Pro/4ProV2/4RTK with SDK controller only, Phantom 3, Mavic Pro/2 series, Spark, N3, A3; Ardupilot, Px4 and other MAVLink compatible multirotors, fixed wings and VTOLs; Mikrokopter; Micropilot; LockheedMartin: Kestrel, Indago.
- Waypoints, linear, circular, perimeter and area scan tools
- Automatic photogrammetry
- Automatic vertical scan (facade)
- Automatic corridor mapping
- Automatic SAR tools
- Immersive 3D mission planning environment
- KML/CSV data import
- DEM import
- Elevation profile and terrain tracking mode
- Import of georeferenced imagery
- Custom map overlays
- ADS-B receiver
- Video transmission
- Includes annual support and update package for the first year
- UgCS is compatible with UgCS Mapper to process images and create map overlays.
- All features of UgCS PRO + LiDAR toolset
- Automatic LiDAR Area Scan Discover UgCS LiDAR tool»»»
- Automatic LiDAR Corridor Mapping
- Built-in IMU calibration tools
Supported Drones and Autopilots
Automated drone mission planning, built-in Photogrammetry and Geotagging tools, Digital Elevation Model (DEM) and KML file import enables map customisation, and battery change option for long routes make UgCS an effective solution for large area surveying.
Map customisation | Offline usage
Create routes from KML
KML files with boundaries of the survey area can be imported into UgCS to set precise survey location. “LineString” segments of the KML file will be imported as simple Waypoint route. “LinearRing” segment can be imported as “Area scan”,“Photogrammetry” or “Perimeter” route type. Video tutorial: KML and CSV Data Import into UgCS.
Plan surveys with Terrain following
UgCS enables mission planning in Terrain-following mode - enabling a very-low- flying vehicle to automatically maintain a relatively constant altitude above ground level. The accuracy of the default SRTM database of UgCS varies, therefore to enable precise and safe flight altitude precise DEM (Digital Elevation Model) data has to be imported of the survey area. Video tutorial: Area scan with Terrain following
Import DEM for safer mission planning
The terrain is always changing, but changes are not always implemented into 3D maps as fast as it is needed. To plan an automated low altitude or mission with terrain following for the purposes of mapping, surveying or monitoring, import Digital Elevation Model (DEM) into UgCS to plan safe missions. Video tutorial: DEM and Map Data Import
Georeferenced image import as Map overlays
To fly automated drone missions precise maps are more important than ever. Import GeoTIFF images as map overlay into UgCS, providing the power to customize the maps to suit your needs.
Mission planner | Drone control
Immersive 3D mission planning environment
UgCS features mission planner with a Google Earth-like 3D interface for UAV mission planning, enabling to navigate the environment more easily. Moreover, a 3D mission planning environment gives more control allowing to view the created flight plan from all angles, taking into account any obstacles such as terrain or buildings.
Drone survey planning tools
UgCS offers tools to make aerial surveys and mapping as easy and effortless as possible. Choose one of the pre-installed camera profiles or create a new one to suit your camera. The LiDAR, Photogrammetry, Corridor mapping, Vertical scan, and Area Scan tools will automatically calculate the flight path based on the drone and camera settings. Alternatively, the Area Scan and Photogrammetry parameters can be adjusted manually, such as GSD, overlap, or desired altitude.
Facade scan tool
The tool for vertical scanning allows to plan a vertical plane, specify the distance to the wall, as well as side and forward overlap. The optimal flying path is calculated automatically. UgCS supports importing 3D object and custom DEM data with the terrain following function. The tool is also extremely useful in mining for examining open quarries. Demo video of the Facade scan tool in action >>>
Once UgCS completes the flight path calculation the elevation profile of the route displays the AGL and AMSL altitude of the drone. The exact altitudes above sea level at all points provides the ability to plan drone missions with respect to the surrounding.
The telemetry data window in UgCS displays telemetry data including the charge level of the battery, radio link and GPS signal quality, current course and heading, speed, altitude and much more.
Automatic flight mode (waypoints) and direct drone control
UgCS enables multiple flight modes. The manual flight mode allows controlling the drone with the remote control. Once a flight plan is created and uploaded to the autopilot the Automatic flight mode can be used. For many drones, UgCS also supports Click&Go and Joystick control flight modes.
There are in-built software emulators for quadrocopters and fixed wing drones -emucopter and emuplane. It enables to test a route before uploading it to a real drone. Feel free to test diverse features and settings of UgCS in a safe environment.
Post-flight analysis and Image processing
UgCS has an in-build geotagging tool, allowing to sync the timestamps of the images with the autopilot's telemetry data recorded during the flight. After matching the geotags with coordinates and correct altitudes, the images can be used for the further processing. Create map overlays or 3D models to import them into UgCS for more precise mission planning.
All telemetry data of the flights is recorded in UgCS, enabling to replay the flights of the drone during the flight.
No-Fly zones - airport registry
UgCS has built-in No-Fly zones (NFZ) for all major airports, enabling a safe flight planning near airports since the flight path will automatically be calculated around the no-fly zone. Airport no-fly zones can be disabled in UgCS PRO and UgCS ENTERPRISE.
Create custom No-Fly zones
UgCS option to create own custom no-fly zones (NFZ) enables to specify regions where flights are prohibited. UgCS will automatically calculate flight path avoiding these areas and make sure that the drone does not enter NFZ while on an automated flight.
Fly zone limits for routes
Set boundaries for the flights starting from the first waypoint. Fly zone limits for routes feature gives the ability to control, that the drone does not fly too far away or higher than desired, according to local regulation.
- Windows 7 with SP1 or later; Windows 8; Windows 10 / 64-bit
- Mac OS X Maverick 10.9 or later / 64-bit
- Ubuntu 18.04 LTS / 64-bit
- Graphics card with DirectX 10 support (shader model 4.0). Any card made since 2004 should work
- 2 GB of free space
- Core 2 Duo or Athlon X2 at 2.4 GHz
- TCP/IPv4 network stack
- Recommended RAM: 4GB or more
- Minimum supported screen resolution: 1024x768