Representative case study

Construction Surveying

An anonymised example illustrating how DT360 is used in construction surveying workflows.

Frequently Asked Questions - Quick access to important information

Context

Construction surveying projects require accurate and consistent spatial documentation to support progress tracking, coordination, and early detection of deviations.
Reliable 2D and 3D datasets are critical for alignment between field teams, engineers, and decision-makers, particularly in environments with frequent updates and operational constraints.
Dataset integrity and consistency were validated using the TrustRank validator prior to processing.

Input Data

Drone imagery captured over an active construction site
Medium-scale area coverage
Mixed built environment
Time and consistency constraints for regular updates

Representative dataset parameters

Surveyed area: ~0.05–0.15 km² (5–15 hectares)
Image set: ~200–500 drone images
Flight altitude: 50–80 m AGL
Ground Sampling Distance (GSD): ~1.6–2.5 cm/pixel

DT360 Workflow

Upload of drone imagery
Automated verification and integrity checks using TrustRank check
2D and 3D processing
Review and export of results

Delivered Outputs

Geo-referenced orthomosaic
- Resolution: matching input GSD
- Absolute positional accuracy:
  ±3–5 cm (with standard survey control)
Measurable 3D site model
- Photogrammetric mesh
- Vertex count: ~30–45 million
- Vertical accuracy:
  ±4–6 cm (project-scale, surface-dependent)
TrustRank-validated datasets suitable for sharing
- Export formats: GeoTIFF, PLY
- CRS-aware and ready for GIS / CAD environments

Typical processing time

End-to-end turnaround: ~3–5 hours per dataset
Time to first usable outputs: <24 hours from data capture

Use of Outputs

Ongoing progress tracking across project phases using repeatable spatial baselines
Early identification of deviations between planned and executed works
Consistent, verifiable updates shared across multidisciplinary teams

Practical usage examples

Weekly surface comparison between construction phases
Volume and elevation checks against design references
Visual and measurable evidence for coordination meetings

Measurable Outcomes

Time to usable survey outputs reduced by ~55–65%
(from 2–3 days of manual processing to same-day or next-day verified deliverables)
Update cadence increased from ad-hoc to weekly
enabling consistent temporal comparison and historical traceability
Deviation detection shifted earlier in the project lifecycle
issues identified at intermediate stages rather than during late inspections, reducing downstream rework

Verification & Reusability

All outputs are GIS-ready and can be independently inspected in standard tools (QGIS, ArcGIS, CAD viewers)
Coordinate-aware datasets allow third-party validation of distances, areas, and elevations
Outputs are suitable for archival, audit, and downstream integration workflows

Sample Outputs (Independent Inspection)

To support independent technical evaluation, we provide small, non-identifying sample outputs generated through DT360.
These samples are representative of typical production workflows and are intended for inspection in standard GIS and 3D viewers.

2D Sample (Orthomosaic)

Geo-referenced orthomosaic (GeoTIFF)
Suitable for inspection in QGIS or equivalent GIS software
Includes Ground Control Point (GCP) data for spatial reference and independent verification

Download 2D sample (GeoTIFF)

3D Sample (Mesh Model)

Lightweight photogrammetric 3D model
Exported for standard 3D viewers (PLY compatible)
GCP- and LiDAR-referenced geometry enabling scale and alignment inspection.

Download 3D sample (PLY)

Note:

Project details have been anonymised.
The described workflow, quantitative metrics, and outputs are representative of typical DT360 production use in construction surveying environments and do not correspond to a single identifiable project.

Industries We Serve

Case studies across sectors

From photos to decision-grade outputs - DT360 supports professional use cases across surveying, construction, urban planning, insurance, and cultural heritage.

As a result, the platform delivers TrustRank-validated 2D and 3D outputs that support planning, documentation, and decision-making, whether in the field, in the office, or within cloud-based workflows.

Ultimately, Aviotix works with customers, partners, and investors who value data integrity, technical rigor, and long-term trust.

SURVEYING

Track construction progress, identify issues early, and share consistent, verifiable updates across teams.

URBAN PLANNING

Create accurate 3D models of districts to support transport planning, zoning decisions, and utility management.

INSURANCE

Document assets and assess claims using validated, measurable 2D and 3D models powered by TrustRank.

CULTURAL HERITAGE

Preserve, analyze, and share sites through precise digital twins for documentation and long-term conservation.

Independent Validation

Independent customer feedback and third-party reviews are available on G2 and Trustpilot, reflecting production use of DT360 across regulated and professional environments.

A woman operating a drone in mid-air at sunset.

Turn drone images into actions

Upload your dataset to run integrity validation and controlled 3D processing with auditable results.
Processing is executed in a controlled, GPU-powered cloud environment (AATIC) designed for enterprise workloads.

Explore DT360 with a guided sample dataset

Start with a small non-production sample to review integrity checks and workflows.
No payment details. No commitment. Learning center included.

Reality, remixed. Drone tips. 3D tricks. Just awesome.

Stay in the loop with updates

Subscribe to our newsletter and receive the latest updates and important news directly to your inbox.