Unlock the Power of Drone Surveying to Visualize Data and Communicate Insights

Easily add up to three geographical reference points to keep website data up to date and detect problems before they become costly or cause a review. It means tighter planning and budgeting and better management of contractors. Survey data captured with drones, properly processed, can increase team accountability, communication and collaboration. Now make sure that your takeoff (and landing) location is level and free of obstructions, make the final adjustments and start your flight.

Your drone will automatically collect data according to your flight path and parameters. Maintain eye contact with your drone and ensure that it progresses through each segment of your networked flight as planned. These four steps of the Microdrones drone topography workflow have guided professionals in fields such as topography, construction and mining in the search for quality results. Often, these deliveries can be delayed during the processing and visualization phase due to the enormous amount of data, slow rendering speeds, and insufficient processing power. In addition, lack of time, technical knowledge or insufficient software can inhibit workflow and prevent geospatial professionals from properly producing products.

Drone topography provides mine operators with high-precision maps and measurements of their mining sites. Regular drone inspections also help teams better anticipate and detect workplace hazards, improving overall site safety. Capturing drone map data involves several steps, such as configuring the drone, calibrating the camera and flying the drone along a predetermined flight path. Drone technology has changed the way in which heavy civil and earthmoving industries inspect their worksites. The photogrammetric data you get when inspecting your site with a drone allows you to execute the job more accurately, reducing the likelihood of receiving change orders.

When the inspection of the drone is finished, pressing the single button again will send the data to Propeller via a WiFi signal, usually an access point on a mobile phone. As topographic data with drones becomes increasingly accessible with easy-to-use, cloud-based mapping and measurement solutions for earthmoving sites, such as the Propeller Platform, earthmoving and civil construction professionals find it easier to estimate, plan and manage their projects. With the company's drone topography equipment, experts allow users to collect and process data in the way that best suits them. We would like you to read what some real earthmoving companies that use drone surveying programs say. Surveying and GIS professionals use drone photogrammetry, along with accurate GPS data, to create 3D maps and models for use in construction operations, waste management, mining and aggregates.

Then, the drone survey data is processed and visualized on an interactive 3D map to track progress, measure volume and improve team collaboration. Next, we'll look at some of the types that can be exported from drone surveying software, such as Propeller, and then can be used in other parts of an earthmoving company's workflow. We also discuss the steps needed to plan a drone mapping mission, process drone cartographic data, and analyze the data to make informed decisions.