![]() Visualizing progress against linework and design files.However, drones allow you to quickly gather data from your mining or aggregates worksite without the risk of climbing stockpiles or maneuvering around moving equipment. Large mining sites and quarries have historically been dangerous and time-consuming to survey on foot, so surveys were rare and expensive. Producing topographical surveys in approximately 24 hours.Drones can fly over dangerous or difficult terrain and return easy-to-visualize topographic data after a mere ten-minute flight. Surveyors and GIS professionals use drones because they make the process of creating accurate, three-dimensional topographic maps easier, safer, and more efficient. Calculating volume measurements (cut/fill).Reducing downtime and improving scheduling.Easily capturing accurate pre-bid topos.Creating 3D site models to share with clients.This process decreases survey cost and improves turnaround time, helping contractors avoid cost overruns and project delays. ![]() With drone mapping, construction professionals can quickly survey large or tough-to-reach areas for accurate site measurements at every stage of a project, including pre-bid and project takeoff. You can track progress over time to see what work was done and when, so you’re never speculating how much work remains (and neither are your stakeholders).ĭrone mapping applications across industries Progress tracking: Drone mapping allows you to visualize a project at every stage, from project takeoff to present day.Drone mapping makes it possible to easily calculate cut and fill. Cut/fill measurements: All earthworks contractors want to know exactly how much dirt they’re moving, especially if they can balance the material on a site.Using drones, surveyors can tell exactly how much material is available, what’s been moved since the last survey, and what still needs to be extracted. Measure stockpile volumes: For mining and aggregates professionals, stockpile inventory management is one of the leading use cases for drone surveying.Software like the Propeller Platform converts your drone images and flight data into an interactive 3D map with a wide variety of uses. This makes it possible to replace time-consuming base and rover surveys with a simple, efficient drone survey flight. How is drone mapping used?ĭrone mapping creates a sort of digital twin (a computerized reflection of your worksite) every time you fly. By combining overlapping, geotagged images of the same features from different angles, photogrammetry software generates photorealistic 3D representations of topographic surfaces.ĭrone photogrammetry is the process of capturing aerial site photos to create a 3D map complete with GPS coordinates and accurate measurements. Photogrammetry is the science of collecting physical information from two-dimensional photos, often aerial images captured by drones. What is drone mapping?īefore we dive into the many uses for drone mapping, let’s start with a basic introduction to the process itself: photogrammetry. If you aren’t exactly sure how drone mapping works or how you might use it, don’t worry-we’ll explain how it’s used and how it can help you map and measure your worksites. Drone mapping (also called aerial surveying) is the process of taking pictures from the air and using software to digitally “stitch” them together into a 3D map of a worksite. That said, drone mapping is still new to many contractors and surveyors. ![]() According to Allied Market Research, the construction drone market is projected to reach nearly $12 billion by 2027. More and more construction sites are taking advantage of drone mapping to improve their speed, quality, and efficiency.
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