Geospatial Information Systems (GIS) is a field that can reap great rewards from the use of professional GIS mapping drones. Unmanned aerial vehicles (UAVs) provide capabilities that are missing from other forms of remote sensing. ArcGIS Drone2Map is the desktop application for your Geographic Information System (GIS) drone mapping needs. With any modern drone, you can capture high-resolution images wherever and whenever you need them. Immediately after the field flight, you can process the images on your laptop and perform drone analysis on your natural color, thermal infrared, or multispectral data sets.
As part of the ArcGIS system, Drone2Map provides easy access to a variety of tools and capabilities for performing accurate geospatial maps and analysis. As a 2D and 3D photogrammetry application, Drone2Map allows you to create the results you need, such as orthomosaics, 3D point clouds and textured meshes, and then easily share them with your ArcGIS organization to increase collaboration and knowledge. Any drone that has a LiDAR sensor is known as a LiDAR drone. They collect GIS data that can be translated into some of the most accurate, high-resolution 3D models for use in a wide range of industries. LiDAR is an advanced technology that, until very recently, was reserved for specialized, high-budget projects.
With a drone, it is now possible to carry out topographic studies of the same quality as high-precision measurements collected by traditional methods, but in a fraction of the time. This substantially reduces the cost of an on-site inspection and the workload of specialists in the field. Orthomosaic and digital surface model created from aerial images taken by the WingtraOne topographic and cartographic drone are just some examples of what can be achieved with drones. A drone study refers to the use of a UAV to capture aerial data with downward-facing sensors, such as RGB or multispectral cameras and LIDAR loads. Reconnaissance drones generate high-resolution orthomosaics and detailed 3D models of areas where low-quality, outdated or even non-existent data is available. When it comes to collecting GIS data for topography and cartography, drones with integrated LiDAR technology are a game changer.
Use any modern drone to capture high-resolution images where and when you need them for your GIS drone mapping workflow. During a drone study with an RGB camera, the floor is photographed several times from different angles and each image is labeled with coordinates. Check that the drone's battery and connected devices, such as tablets, are fully charged and that the memory card in the drone's camera has enough empty space to capture the entire project. In this step, the operator basically ensures that no one approaches the drone during takeoff or landing and that the weather conditions remain optimal for the reconnaissance mission. The construction of large projects, such as roads, as well as the general monitoring of construction works, can benefit from the ability to easily carry out topographic cartographies and topographic surveys with the use of drones. Aerial images taken by drones greatly accelerate and simplify topographic studies for land management and planning.
