As-Built Documentation — Fundamentals and Application

The original drawings from the 80s have vanished, the seller doesn't know the wall thicknesses, the insurer wants a current record, and the architect on the refurbishment is asking for as-built CAD drawings. At this point one thing becomes clear: without a clean as-built documentation, no one gets far in an existing building. This article sums up what as-built documentation is, when it's worth the effort, which methods exist, and what professional existing-building documentation realistically costs.

What is as-built documentation?

As-built documentation — sometimes shortened to as-built doc or simply existing-building record — is the geometric and technical description of a building as it was actually constructed and stands today. Unlike construction drawings (as-designed), which show the planned target state, as-built captures the real current state including every deviation, every later conversion and every unplanned quirk.

A complete as-built record typically covers measurable geometry (floor plans, sections, elevations), a photographic survey, the location of building services (heating, ventilation, electrical, plumbing), and a structural assessment of fabric and visible damage. Depending on the use case, this ranges from a lean 2D drawing set to a fully geometrised BIM model with component attributes.

5 typical triggers — when you need an as-built record

1. Refurbishment or conversion: Any serious architect will demand reliable existing-building drawings before drawing a single line for the refurbishment. No as-built, no permit, no budget, no MEP design.
2. Sale or refinancing: Banks and buyers want areas with a verifiable source, not "roughly by eye". An as-built record provides the gross and lettable area to recognised standards in a defensible way and strengthens your negotiating position.
3. Insurance and claims handling: After water damage, fire or storm, the insurer asks for the pre-event state. Anyone who can produce a current 3D capture settles much faster and avoids disputes about scope.
4. Inheritance and ownership: In communities of heirs, partition or family transfers, an objective existing-building record is often the only way to defuse arguments about "who gets what".
5. Asset management and BIM migration: Facility managers, municipalities and corporates are digitising their portfolios. An as-built record is the input file for CAFM, BIM or a digital twin — without it the asset stays a black box.

Methods — from tape measure to LiDAR

Method choice drives accuracy, effort and price. An overview of the five common approaches:

In practice we usually combine two to three methods: LiDAR for the interior, drone for the roof, and selective total-station or TLS where millimetres matter. We only recommend pure tape-measure capture for tiny objects with no downstream design work.

What belongs in the record

A complete existing-building documentation covers more than wall lengths. These components belong in a serious as-built record:

• Geometry: Floor plans, sections, elevations, wall thicknesses, ceiling heights, opening dimensions.
• Building services (MEP): Radiators, vent diffusers, distribution boards, sanitary fixtures, fire-protection components — located on the plan and ideally photo-linked.
• Materials and build-ups: Wall construction (masonry, timber, reinforced concrete), floor and ceiling finishes, roof covering, visible insulation.
• Connections and supply: Meters, utility entries, party-wall interfaces, access points.
• Damage and defects: Cracks, damp traces, settlement, mould — photographed and shown on the plan (equally valuable for refurbishment design and for insurance).
• Metadata: Capture date, equipment used, accuracy achieved, reference points. These details later determine the legal weight of the record.

Deliverable formats at a glance

"We want an as-built record" can mean anything from a PDF floor plan to a fully attributed BIM model. This overview helps with briefing:

Required accuracy per application

More accuracy isn't always better — it's always more expensive. The right accuracy follows from the intended downstream use:

• Marketing / sale / insurance: ±2 cm is plenty. Buyers and insurers want plausibly documented areas, not millimetres.
• Refurbishment & MEP design: <±2 cm. Sufficient for architecture, heating, plumbing and dry-walling. The standard for most LiDAR-based as-built records.
• Structural assessment: <±1 cm. Here you need either TLS or at least TLS-referenced LiDAR data — tape values are not enough.
• Industrial plant / machine integration: <±5 mm. Classic TLS or total-station use case. Every millimetre counts because steelwork and piping are prefabricated to fit.

In practice this means: clarify the use case first, then fix the accuracy, then choose the method. Using a total station for a buyer's record burns money; surveying bridges with a phone LiDAR risks damage.

What it costs

The honest answer is: it depends on size, complexity, method and depth of deliverable. For orientation, three realistic price brackets for a complete existing-building documentation to LiDAR standard (capture + 2D drawing set + point cloud):

• 100 m² flat / single-family house: roughly €600–€900 net. Half a day on site, DWG/PDF drawing set, point cloud.
• 1,000 m² hall or office building: roughly €2,500–€4,000 net. 1–2 days of capture, full drawing set, E57 point cloud, virtual tour.
• 10,000 m² industrial site: from €15,000 net, easily more depending on detail depth and BIM share. Multi-day deployment, hybrid LiDAR + drone + TLS, project-specific deliverables.

Typical surcharges: BIM modelling (often +50–150% on top of pure capture), working in live operations (weekend/night premium), hard-to-reach areas (cherry picker, scaffolding) and special accuracy below 1 cm. A serious quote always involves a brief on-site walkthrough or at least an honest briefing call — internet flat rates are almost always misleading here.

Who does the documentation?

Three realistic options:

• Specialist 3D service provider (such as Bitblade Vision): Capture, point-cloud processing, 2D drawings, optional BIM — all from one shop. Fast, project-focused, suitable for most existing buildings up to ~10,000 m².
• Conventional survey office / chartered surveyor: Necessary when statutory positional reference, land-registry relevance or structural surveying is the priority. Higher hourly rates, but legally watertight.
• DIY: Feasible for hobby projects and small flats with app-based LiDAR, but not sufficient as a legally binding record. Almost never adequate for sale, insurance or authority use.

Rule of thumb: the more standard your use case (refurbishment, sale, FM), the better a 3D service provider fits. The more official or structural the context, the more it tilts toward a survey office. The two are not mutually exclusive — on large projects we regularly work alongside survey offices, each contributing their strength.

Bottom line

In 2026 as-built documentation is no longer optional, it's table stakes for anyone working seriously with existing buildings — whether you're refurbishing, owning, designing or running facilities. The good news: thanks to LiDAR and photogrammetric methods, a reliable existing-building record is significantly cheaper and faster today than it was five years ago. The right combination of method, accuracy and deliverable format turns "a few drawings" into an asset that remains useful for years.

Planning a refurbishment, sale or BIM migration and need a clean as-built record? We're happy to come out for a free walkthrough with a capture concept: Request a quote.