UgCS currently supports DJI M300 RTK, M30 series, Mavic 3 Enterprise series, M600 series, M200/M210 series, M100, Inspire series, Phantom 4 series (with SDK controller only), Mavic 2 series and others. UgCS also supports Autel EVO II series, Freefly Alta X, Watts Innovations PRISM, Inspired Flight IF1200, and other Ardupilot/PX4 MAVLink-compatible multirotors, fixed wings and VTOLs.
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.
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.
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
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
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
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
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.
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.
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.
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.
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.
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.
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 >>>
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.
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.
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.
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.
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.
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.
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.
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.
All telemetry data of the flights is recorded in UgCS, enabling to replay the flights of the drone during the flight.
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.
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.
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.
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.
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.
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.
UgCS is the best software to plan and fly drone survey missions, it supports almost any UAV platform, providing convenient tools for areal and linear surveys and enabling direct drone control. UgCS enables professional land survey mission planning using photogrammetry technique. Learn more >>>
UgCS is the best software to plan and fly drone survey missions, it supports almost any UAV platform, providing convenient tools for areal and linear surveys and enabling direct drone control. UgCS enables professional land survey mission planning using photogrammetry technique. Learn more >>>
UgCS has the needed tools to plan long routes to cover the extensive distance of powerlines. Any mission can be paused to change the battery or adjust the route and can then be continued. Furthermore, UgCS allows triggering the camera (photo and video mode) only when required, thus reducing the total number of images and the time needed for data analysis.
The UgCS Circle tool makes the drone automatically fly around a certain point while facing towards it - making it a useful tool together with video recording to inspect the tower from all around.
UgCS has the needed tools to plan long routes to cover the extensive distance of powerlines. Any mission can be paused to change the battery or adjust the route and can then be continued. Furthermore, UgCS allows triggering the camera (photo and video mode) only when required, thus reducing the total number of images and the time needed for data analysis.
The UgCS Circle tool makes the drone automatically fly around a certain point while facing towards it - making it a useful tool together with video recording to inspect the tower from all around.
UgCS offers many special camera actions allowing to either trigger the camera of the drone by time (every X seconds) or by distance (every X meters). This is an essential tool for continuous photography and high-quality 2D or 3D model generations. Also, with UgCS it is possible to plan missions at a certain altitude above sea level (AMSL), increasing the quality of 3D generated models. All recorded videos are referenced with telemetry, allowing the operator to see exactly where the drone was while filming it.
UgCS is capable of controlling drones equipped with photo and video cameras, and also capable of controlling drones equipped with LIDAR.
UgCS offers many special camera actions allowing to either trigger the camera of the drone by time (every X seconds) or by distance (every X meters). This is an essential tool for continuous photography and high-quality 2D or 3D model generations. Also, with UgCS it is possible to plan missions at a certain altitude above sea level (AMSL), increasing the quality of 3D generated models. All recorded videos are referenced with telemetry, allowing the operator to see exactly where the drone was while filming it.
UgCS is capable of controlling drones equipped with photo and video cameras, and also capable of controlling drones equipped with LIDAR.
UgCS permite la planificación de rutas más largas las cuales, a su vez, permiten cubrir una distancia larga de líneas eléctricas. Una misión más grande puede ser interrumpida para cambiar la batería o hacer otros ajustes y puede ser restaurada desde el lugar de interrupción. Además, UgCS le permite accionar la cámara solo cuando es requerido, así reduciendo el número total de imágenes y el tiempo necesitado para el análisis de data.
En UgCS es posible usar misiones circulares, el cual hace que el dron automáticamente vuele alrededor de cierto punto mientras está mirando hacia el centro. Esto puede ser utilizado junto a la grabación de video para filmar la torre en todas las posiciones.
Igualmente como con las fotografías, la grabación de video puede ser iniciada y parada desde la interfase de UgCS, así reduciendo la duración total del video, el cual está menos propenso a llenar la memoria de la cámara
UgCS permite la planificación de rutas más largas las cuales, a su vez, permiten cubrir una distancia larga de líneas eléctricas. Una misión más grande puede ser interrumpida para cambiar la batería o hacer otros ajustes y puede ser restaurada desde el lugar de interrupción. Además, UgCS le permite accionar la cámara solo cuando es requerido, así reduciendo el número total de imágenes y el tiempo necesitado para el análisis de data.
En UgCS es posible usar misiones circulares, el cual hace que el dron automáticamente vuele alrededor de cierto punto mientras está mirando hacia el centro. Esto puede ser utilizado junto a la grabación de video para filmar la torre en todas las posiciones.
Igualmente como con las fotografías, la grabación de video puede ser iniciada y parada desde la interfase de UgCS, así reduciendo la duración total del video, el cual está menos propenso a llenar la memoria de la cámara
En UgCS el operador obtiene el acceso a muchas acciones especiales de cámara permitiendo bien activar la cámara en el dron por tiempo (cada “x” segundos) o por distancia (cada “x” metros). Esto es una herramienta esencial for fotografía continua y de alta calidad en modelos de generación 2D o 3D. También, con UgCS es posible planificar misiones a una cierta altitud al nivel del mar (MSNM). Esto puede aumentar considerablemente la cualidad de modelos generados en 3D.
En UgCS todo el video grabado es referenciado con telemetría, permitiendo al operador ver exactamente donde estaba el dron mientras estaba grabando.
Finalmente, UgCS no solo es capaz de controlar los drones equipados con cámaras de foto y video, también está capacitado para controlar los drones equipados con LIDAR.
En UgCS el operador obtiene el acceso a muchas acciones especiales de cámara permitiendo bien activar la cámara en el dron por tiempo (cada “x” segundos) o por distancia (cada “x” metros). Esto es una herramienta esencial for fotografía continua y de alta calidad en modelos de generación 2D o 3D. También, con UgCS es posible planificar misiones a una cierta altitud al nivel del mar (MSNM). Esto puede aumentar considerablemente la cualidad de modelos generados en 3D.
En UgCS todo el video grabado es referenciado con telemetría, permitiendo al operador ver exactamente donde estaba el dron mientras estaba grabando.
Finalmente, UgCS no solo es capaz de controlar los drones equipados con cámaras de foto y video, también está capacitado para controlar los drones equipados con LIDAR.
To get the images for vegetation indexes, a drone with a camera needs to be sent on an automatic flight over the field. UgCS comes with a built-in Photogrammetry tool which makes aerial surveying an ease. Simply by marking down the field which needs to be scanned on the map and entering a desired ground sample distance (GSD) and the desired image overlap, the flight path is automatically calculated. Then the drone can be sent on an automated mission to collect images for later analysis.
To get the images for vegetation indexes, a drone with a camera needs to be sent on an automatic flight over the field. UgCS comes with a built-in Photogrammetry tool which makes aerial surveying an ease. Simply by marking down the field which needs to be scanned on the map and entering a desired ground sample distance (GSD) and the desired image overlap, the flight path is automatically calculated. Then the drone can be sent on an automated mission to collect images for later analysis.
With UgCS it is possible to scan large areas since it allows the drone to return when a battery needs to be changed and then fly back and continue from the previous waypoint. UgCS also features a geotagging tool allowing the aerial images made to be synced with telemetry data. The post-processing of images enables to calculate the NDVI indexes.
With UgCS it is possible to scan large areas since it allows the drone to return when a battery needs to be changed and then fly back and continue from the previous waypoint. UgCS also features a geotagging tool allowing the aerial images made to be synced with telemetry data. The post-processing of images enables to calculate the NDVI indexes.
Con UgCS es posible escanear grandes áreas desde que está permitido que el dron regrese cuando la batería necesita ser cambiada y luego volver atrás y empezar desde el punto de referencia anterior.
UgCS también destaca la herramienta de geoetiquetado permitiendo a las imágenes aéreas hechas ser sincronizadas con la data de telemetría
Usando herramientas de fotogrametría especiales como Pix4D o Photoscan, las imágenes pueden ser agrupadas y el índice de NDVI puede ser calculado.
Con UgCS es posible escanear grandes áreas desde que está permitido que el dron regrese cuando la batería necesita ser cambiada y luego volver atrás y empezar desde el punto de referencia anterior.
UgCS también destaca la herramienta de geoetiquetado permitiendo a las imágenes aéreas hechas ser sincronizadas con la data de telemetría
Usando herramientas de fotogrametría especiales como Pix4D o Photoscan, las imágenes pueden ser agrupadas y el índice de NDVI puede ser calculado.
UgCS comes out-of-the-box with a simple and easy to use interface. At the same time, UgCS features multi-drone and multi-operator support, making it possible to use it as a centralized drone management solution: Command center operators to track on map real-time position of the drones used in-field and receive live video streams. Command center operators can mark points of interest on the shared map to indicate locations for field drone operators for detailed inspection or even can take manual control over the drone and its camera. Furthermore, all of the flight data is recorded and stored locally, allowing any flight to be replayed together with the video feed from the drone. Learn more >>>
UgCS comes out-of-the-box with a simple and easy to use interface. At the same time, UgCS features multi-drone and multi-operator support, making it possible to use it as a centralized drone management solution: Command center operators to track on map real-time position of the drones used in-field and receive live video streams. Command center operators can mark points of interest on the shared map to indicate locations for field drone operators for detailed inspection or even can take manual control over the drone and its camera. Furthermore, all of the flight data is recorded and stored locally, allowing any flight to be replayed together with the video feed from the drone. Learn more >>>
Essential, especially for natural disasters is UgCS capability to use custom or even user-generated maps. As environment often changes during flooding or after earthquakes as an example. What’s more, the drones can be sent on automatic scanning mission, all while sending a video feedback. This would essentially give the operator live aerial video from various locations of the scene on the central command station and ability to mark points of interest on the map for closer examination by ground teams or other drones.
Essential, especially for natural disasters is UgCS capability to use custom or even user-generated maps. As environment often changes during flooding or after earthquakes as an example. What’s more, the drones can be sent on automatic scanning mission, all while sending a video feedback. This would essentially give the operator live aerial video from various locations of the scene on the central command station and ability to mark points of interest on the map for closer examination by ground teams or other drones.
UgCS viene con una interfaz “lista para usar” simple y fácil de usar. Al mismo tiempo UgCS ofrece soporte a los multi drones y multioperadores. Esto quiere decir que una flota de drones puede ser operada, cada dron vinculado a un operador con un portátil en el campo. Estos ordenadores pueden ser conectados y todos los drones y sus acciones pueden ser monitoreadas en un mapa en la estación de comando central. Asimismo, toda la data de vuelo es grabada y almacenada localmente, permitiendo que cualquier vuelo se puede volver a reproducir junto con la transmisión de video del dron.
Esto puede ser usado tanto cuando se opera una gran flota de drones para enviar medicina o como cuando está trabajando en operaciones de búsqueda y rescate.
UgCS viene con una interfaz “lista para usar” simple y fácil de usar. Al mismo tiempo UgCS ofrece soporte a los multi drones y multioperadores. Esto quiere decir que una flota de drones puede ser operada, cada dron vinculado a un operador con un portátil en el campo. Estos ordenadores pueden ser conectados y todos los drones y sus acciones pueden ser monitoreadas en un mapa en la estación de comando central. Asimismo, toda la data de vuelo es grabada y almacenada localmente, permitiendo que cualquier vuelo se puede volver a reproducir junto con la transmisión de video del dron.
Esto puede ser usado tanto cuando se opera una gran flota de drones para enviar medicina o como cuando está trabajando en operaciones de búsqueda y rescate.
Esencial, especialmente para desastres naturales está la capacidad de UgCS de usar mapas personalizados o incluso mapas generados por el usuario. Como el medio ambiente cambia a menudo durante inundaciones o después de terremotos por ejemplo.
Es más, los drones pueden ser enviados en misiones de escaneo automático, todo mientras está mandando el video de respuesta. Esto daría esencialmente al operador un video aereo en vivo desde varias ubicaciones de la escena en la estación de comando central y una habilidad de marcar puntos de interés en el mapa para una examinación más cercana por los equipos de terreno u otros drones.
Esencial, especialmente para desastres naturales está la capacidad de UgCS de usar mapas personalizados o incluso mapas generados por el usuario. Como el medio ambiente cambia a menudo durante inundaciones o después de terremotos por ejemplo.
Es más, los drones pueden ser enviados en misiones de escaneo automático, todo mientras está mandando el video de respuesta. Esto daría esencialmente al operador un video aereo en vivo desde varias ubicaciones de la escena en la estación de comando central y una habilidad de marcar puntos de interés en el mapa para una examinación más cercana por los equipos de terreno u otros drones.
Progress is exciting. While the progress of a construction site might be hard to capture in images, drones can make this possible. For example, by using UgCS a drone can be made to fly to a specific location every day and take a picture. These pictures can then be combined into beautiful time-lapse.
Progress is exciting. While the progress of a construction site might be hard to capture in images, drones can make this possible. For example, by using UgCS a drone can be made to fly to a specific location every day and take a picture. These pictures can then be combined into beautiful time-lapse.
Furthermore, it is also possible to create 3D models this way. UgCS comes with an inbuilt image geotagging tool which allows adding the coordinates to images taken while flying with UgCS so that they can be processed into 3D representations of buildings and to show the progress of construction visually. Furthermore, these 3D buildings can be imported into UgCS for mission planning around them.
Furthermore, it is also possible to create 3D models this way. UgCS comes with an inbuilt image geotagging tool which allows adding the coordinates to images taken while flying with UgCS so that they can be processed into 3D representations of buildings and to show the progress of construction visually. Furthermore, these 3D buildings can be imported into UgCS for mission planning around them.
Another way to use UgCS is for taking pictures from windows that do not yet exist. The view from windows is very important to people considering buying apartments. To get buyers on-board in time, drones can be used to take pictures of the exact places and orientations where windows of apartments will be.
Another way to use UgCS is for taking pictures from windows that do not yet exist. The view from windows is very important to people considering buying apartments. To get buyers on-board in time, drones can be used to take pictures of the exact places and orientations where windows of apartments will be.
El progreso es excitante. Mientras que el progreso de un edificio en construcción puede ser difícil de capturar en imágenes, los drones pueden hacer esto posible. Por ejemplo, usando UgCS un dron puede ser mandado a volar a una ubicación específica cada día y tomar una foto. Estas fotos pueden luego ser combinadas en hermosas imágenes en timelapse.
El progreso es excitante. Mientras que el progreso de un edificio en construcción puede ser difícil de capturar en imágenes, los drones pueden hacer esto posible. Por ejemplo, usando UgCS un dron puede ser mandado a volar a una ubicación específica cada día y tomar una foto. Estas fotos pueden luego ser combinadas en hermosas imágenes en timelapse.
Además, también es posible crear modelos en 3D de esta manera. UgCS viene con una herramienta incorporada de geoetiquetado de imagen el cual permite añadir las coordinadas a imágenes tomadas mientras está volando con UgCS, así entonces pueden ser procesadas en representaciones en 3D de los edificios y mostrar el progreso de la construcción visualmente. Asimismo, estos edificios en 3D pueden ser importados a UgCS para planeamiento de misiones alrededor de ellos.
Además, también es posible crear modelos en 3D de esta manera. UgCS viene con una herramienta incorporada de geoetiquetado de imagen el cual permite añadir las coordinadas a imágenes tomadas mientras está volando con UgCS, así entonces pueden ser procesadas en representaciones en 3D de los edificios y mostrar el progreso de la construcción visualmente. Asimismo, estos edificios en 3D pueden ser importados a UgCS para planeamiento de misiones alrededor de ellos.
Otra manera de usar UgCS es para tomar fotos desde ventanas que aún no existen. La vista desde las ventanas es muy importante para la gente que está considerando comprar apartamentos. Para obtener compradores a bordo a tiempo, los drones pueden ser utilizados para tomar fotos en los lugares y orientaciones exactas donde las ventanas de los apartamentos estarán.
Otra manera de usar UgCS es para tomar fotos desde ventanas que aún no existen. La vista desde las ventanas es muy importante para la gente que está considerando comprar apartamentos. Para obtener compradores a bordo a tiempo, los drones pueden ser utilizados para tomar fotos en los lugares y orientaciones exactas donde las ventanas de los apartamentos estarán.
Operating system:
Graphics hardware
Hard drive
CPU
Network
Memory
Screen resolution