2D Mapping – Ultra-High Resolution Orthomosaics
Detailed 2D maps created from drone imagery, ideal for measurements, planning and site analysis.
Drone Pro Surveys provides a faster, more accurate alternative to traditional land surveys with sub-centimetre resolution mapping.
Precision Data at Your Fingertips
- Take distance, area, and volume measurements directly from your 2D map with high precision.
- Map large sites in a single day and receive your processed map in as little as 48 hours.
- Document site changes, monitor legal boundaries or evaluate environmental changes with ease.
- Better detail than any satellite imagery, updated when you need it.
2D Mapping
Geometrically Corrected Data
We use RTK-enabled drones and photo software to process data into accurate maps compatible with GIS and CAD workflows.
- Ultra-high resolution GeoTIFF files.
- Digital Elevation Models (DEM).
- Compatible with QGIS / ArcGIS / CAD.
- Accurate measurement capabilities.
Mapping Applications
Site Planning
Our maps provide the foundation for successful project planning and execution.
- Topographical site overviews
- Construction progress tracking
- Planning applications
- Environmental surveys
- Boundary documentation
Asset Management
Monitor and manage large-scale assets more effectively with detailed aerial mapping data.
- Agricultural crop health
- Solar farm layouts
- Industrial complex site management
- Quarry volume analysis
- Real estate portfolios
2D Mapping – Ultra-High Resolution Orthomosaics
Detailed 2D maps created from RTK drone imagery provide our clients with accurate, centimetre-level measurements to assist planning, construction monitoring and site analysis.
2D Mapping FAQs
We can achieve accurate, centimetre-level resolution using our RTK-enabled drones. Additional GCP’s ensure centimetre-level absolute accuracy.
Yes. We can deliver in industry-standard formats like GeoTIFF and DXF for AutoCAD, QGIS, etc.
Orthomosaics are stitched together from 100’s of photos to provide geometrically corrected precise measurements.