How accurate are your photogrammetry deliverables?

Accuracy depends on site conditions and control requirements. RTK workflows generally improve absolute positioning, and ground control points can be integrated for projects requiring tighter tolerances.

Andrews Photogrammetry

Q: What deliverables can I request?

Common deliverables include georeferenced orthomosaics, DSM/DTM surfaces, contours, stockpile/earthwork volumes, and measurable 3D models suitable for CAD/GIS environments.

In Andrews, 2D orthomosaics provide dependable documentation of energy and industrial sites, while 3D modeling supports better cut/fill estimates, drainage planning, and stakeholder sign-off during project milestones.

Orthomosaics & GIS ready exports map-ready deliverables for energy infrastructure, industrial pads, and access corridors.

Surfaces, contours & volumes DSM/DTM, contour lines, and stockpile/earthwork measurements.

Measurable 3D models 3D deliverables for elevation change tracking and pre/post-construction analysis.

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Photogrammetry Gallery

A curated set of RTK photogrammetry captures and drone mapping deliverables serving Andrews, Texas.

Top-down orthomosaic of an industrial yard with basins and graded material.

Colorized elevation surface over a tank containment pad and berms.

Orthomosaic of a commercial building and parking area adjacent to a road.

Elevation heatmap overlay on a building site showing height variation.

Orthomosaic of a tank farm with several circular storage tanks and access roads.

Elevation color map over a tank farm highlighting berms and surface slopes.

Dense yellow point cloud overlay on a site map indicating scan coverage.

Large orthomosaic of an industrial yard with equipment rows and a central access road.

Oblique 3D model view of an industrial site with buildings and yard features.

Close-up textured terrain surface showing slope and ground features near water.

Oblique 3D model of a large site with highlighted areas and feature markings.

3D model view of a site with a structure outlined for measurement or review.

Oblique 3D model of a graded site with markings and surrounding context.

Orthomosaic of a square site with colored analysis overlay and boundary lines.

Elevation heatmap with a boundary polygon and highlighted site features.

Full-site elevation color map showing slope and elevation variation across a boundary.

Oblique 3D model with a field of camera markers above the site for coverage review.

3D model of a site with flight reconstruction points shown above for alignment context.

Oblique 3D model of an industrial site with buildings and graded areas visible.

Perspective 3D model view of a site with buildings, roads, and annotated areas.

3D model of a commercial building with parking lot and surrounding pavement edges.

3D model of a building site with control points and linework visible for measurement.

Top-down rotated 3D model of a small commercial building and parking area.

Oblique 3D model of a commercial building with camera position markers above the scene.

Common Questions

What do you need to start an RTK photogrammetry project?

A site address and boundary (KML/KMZ preferred or GeoJSON if available), target deliverables (orthomosaic, contours, volumetrics, 3D model), plus any accuracy/control requirements. For Andrews sites, share access windows and any airspace or site access requirements so we can align on the flight plan and QA approach.

How accurate are photogrammetry deliverables?

Accuracy depends on site conditions and control requirements. RTK workflows improve absolute positioning, and ground control points can be integrated for projects requiring tighter tolerances.

What deliverables can I request?

Orthomosaics, DSM/DTM surfaces, TIF, glb, custom CRS, quality report, contour lines, stockpile/earthwork volumes, and measurable 3D models suitable for CAD/GIS workflows.

Who uses RTK photogrammetry?

Andrews AEC teams, industrial operators, developers, survey support teams, and public entities use photogrammetry for documentation, planning, progress tracking, and surveying or engineering grade measurements depending on the scope of work.

How fast is turnaround?

Turnaround depends on site size and deliverable complexity. Andrews area projects can be prioritized for time-sensitive mapping once scope, access, and QA requirements are confirmed.