ConeLabs
ConeLabs is a cloud inspection platform that turns smartphone, camera, and drone imagery into shareable 3D models with measurement, annotation, and collaborative review for building envelopes and infrastructure assets.
ConeLabs describes a four-step loop: capture images with common hardware, upload to a web processor, inspect the reconstructed scene with measurement and labeling tools, then export or link results into reports (ConeLabs, 2026). The positioning targets long, costly physical inspections across building exteriors, utilities, and transport structures where 2D photo sets are easy to misfile or reinterpret.
Feature messaging highlights textured 3D reconstruction, measurement and annotation, collaborative review through web links, and data-source flexibility rather than a single proprietary capture device (ConeLabs, 2026). Industries called out include buildings for envelope issues, utilities for generation and network assets, and transport for bridges, roads, and related infrastructure.
The vendor frames the platform as engineering-grade for teams that want to reduce repetitive manual work while keeping human judgment in the loop for defects and severity (ConeLabs, 2026). Exact accuracy statements, export formats, and BIM-level integrations are not summarized as a one-page public datasheet; confirm them for your asset class during evaluation.
Pricing and trial terms are not published as a full grid on the homepage; teams request demos through the contact flow (ConeLabs, 2026).
Specifications
Pricing
Platforms
Used for
Used by
Tasks
Pros and cons
Pros
- Keeps capture hardware open compared with locked single-vendor scanners only
- Emphasizes collaboration and reporting for distributed review teams
- Clear industry buckets for buildings, utilities, and transport
Cons
- Public site is light on downloadable specs and format matrices
- Best results still depend on disciplined capture and control network where needed
- Commercial terms require a demo conversation rather than instant checkout
Key features
Flexible capture: Accepts imagery from phones, cameras, drones, and similar sources (ConeLabs, 2026).
3D reconstruction: Web-based processing into textured models for inspection instead of loose photo folders.
Measurement and markup: Tools for dimensions, labels, and collaborative review in the browser.
Shareable views: Secure links so remote stakeholders can open the same model on typical hardware.
Sector coverage: Pages list buildings, utilities, and transport infrastructure use cases (ConeLabs, 2026).
End-to-end story: Capture, process, inspect, and report positioning on the marketing site.
Pricing
Commercial (contact vendor)
Contact sales
Demo-led sales; verify licensing on conelabs.ai (ConeLabs, 2026).
Frequently asked questions
What hardware does ConeLabs require?
Marketing copy describes capture with smartphones, cameras, drones, and similar devices rather than mandating one branded sensor (ConeLabs, 2026). Ask the vendor for recommended flight plans, overlap, and ground control practices.
Is ConeLabs a BIM or CAD authoring tool?
The public story centers on 3D inspection and measurement from imagery. Confirm IFC, CAD, or model export needs with the vendor if you must feed a downstream BIM environment (ConeLabs, 2026).
Which industries does ConeLabs serve?
Industry blocks reference buildings, utilities, and transport infrastructure on the homepage (ConeLabs, 2026).
Can external partners view models without installing heavy software?
Yes, the site emphasizes browser-based sharing links for visualization on consumer-grade computers (ConeLabs, 2026).
How do teams export inspection results?
The workflow section mentions extracting inspection data or linking models into project reports; confirm export templates during a pilot (ConeLabs, 2026).
Is there a free tier for ConeLabs?
The homepage routes interested teams through a demo request rather than advertising a permanent free tier (ConeLabs, 2026).