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SURVEY-GRADE LASER SCANNING SERVICES

Capture millimetre-accurate site data for BIM, CAD, and as-built documentation using industry-leading LiDAR technology.

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Professional LiDAR Scanning Services Australia

Access to accurate site data is fundamental to successful project delivery, and our 3D laser scanning services across Australia are built to provide exactly that. In industries where precision, coordination, and timing are critical, having a reliable understanding of existing conditions can make the difference between a smooth project and costly delays. Our services capture high-resolution point cloud data that delivers a true-to-life representation of sites, structures, and assets, forming a dependable foundation for planning, design, and execution. Using advanced, survey-grade laser scanning technology, we collect dense and highly accurate spatial data across a wide range of environments, including construction sites, infrastructure corridors, industrial facilities, and commercial buildings. This data enables engineers, architects, and project teams to work from real-world information rather than assumptions or outdated drawings. By improving accuracy at the earliest stages, we help reduce design errors, avoid clashes, and minimise the need for rework during construction.

The captured point cloud data can be used to generate detailed models, drawings, and digital assets that integrate seamlessly into BIM and CAD workflows. This supports better collaboration between stakeholders, ensuring everyone is working from the same consistent dataset. Whether used for feasibility studies, detailed design, progress tracking, or final verification, the data provides clarity and confidence at every stage of the project lifecycle. Our services are scalable to suit projects of all sizes, from single buildings to large, complex developments spanning multiple sites. By capturing data quickly and efficiently, we reduce the need for repeated site visits, improving safety and saving time for project teams. With a strong focus on quality, accuracy, and consistency, we ensure that every dataset we deliver is ready for immediate use, helping clients streamline workflows, reduce risk, and achieve better project outcomes across Australia.

What is Laser Scanning

3D laser scanning is a survey-grade method of capturing highly accurate spatial data using LiDAR technology. Advanced laser scanners, such as the Leica RTC360, emit millions of laser measurements to record the exact geometry of buildings, structures, and environments in three-dimensional space. The result is a dense, highly detailed dataset known as a point cloud, which provides a true-to-life digital representation of existing conditions.

Unlike manual measurement methods or lower-accuracy capture techniques, survey-grade laser scanning delivers millimetre-accurate data that can be relied on for design, documentation, and construction. This makes it ideal for a wide range of applications, including architecture, construction, infrastructure, and asset management, where precision and reliability are critical.

Once captured, the point cloud data can be used to produce:

  • BIM models for design and coordination
  • CAD drawings including plans, elevations, and sections
  • Accurate as-built documentation
  • Digital twin environments for analysis and visualisation

By working from real-world data rather than assumptions or outdated drawings, project teams can improve accuracy, reduce risk, and make more informed decisions at every stage of the project lifecycle.

Benefits of Laser Scanning

Millimetre Accurate Data Capture – Capture precise point cloud data using survey-grade scanning, ensuring reliable measurements for design and construction.

Reliable As-Built Documentation – Create accurate as-built records that reflect true site conditions, reducing reliance on outdated drawings.

Supports BIM & CAD Workflows – Deliver data that integrates seamlessly into BIM and CAD environments for efficient modelling and documentation.

Improved Design Accuracy – Work from real-world conditions to reduce errors, minimise rework, and improve confidence across project teams.

High-Quality Visual & Spatial Data – Combine detailed point clouds with imagery to provide clear context for teams and stakeholders.

Fast & Efficient Site Capture – Capture large or complex environments quickly, reducing time on site and minimising disruption.

Reduced Project Risk – Identify potential issues early with accurate data, helping avoid costly mistakes during construction.

Consistent & Scalable Data – Deliver reliable datasets across projects of any size, from single buildings to large developments.

Advanced Survey-Grade Technology – Use industry-leading scanners like the Leica RTC360 to ensure accuracy, speed, and data quality.

Better Decision-Making – Provide clear, measurable data that supports planning, coordination, and informed project outcomes.

Industries We Support with 3D Laser Scanning

3D Walkabout provides reality capture and 3D laser scanning services for a wide range of industries across the built environment. From architectural surveys and construction documentation to industrial facility scanning and infrastructure capture, our technology supports projects of all sizes across Australia.

Architecture & Building Surveys
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Construction & Development
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Commercial Property & Asset Management
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Industrial Facilities & Warehouses
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Retail & Shopping Centres
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Education Facilities
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Healthcare & Hospitals
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Infrastructure & Transport
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Residential Developments
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Laser Scanning Documentation Workflow

1
Project Planning

Determine scanning strategy and access requirements.

2
Facility Scanning

Capture millions of spatial measurements across the plant.

3
Point Cloud Registration

Combine multiple scans into a unified dataset.

4
Data Processing

Clean and prepare scan data for modelling.

5
Data Delivery

Deliver point cloud datasets, CAD drawings or BIM models.

Laser Scanning Deliverables

Registered Point Cloud Data – Deliver fully registered, survey-grade point cloud datasets (RCP, E57, LAS) ready for immediate use in design, modelling, and coordination workflows.

BIM Models – Create detailed Revit models from point cloud data to support design development, clash detection, and project coordination.

CAD Drawings – Produce accurate 2D drawings including plans, elevations, and sections based on true existing conditions.

As-Built Documentation – Provide reliable as-built drawings and models that reflect real-world site conditions for construction, refurbishment, and compliance.

Digital Twin Models – Develop intelligent digital representations of assets for visualisation, analysis, and long-term asset management.

Engineering Documentation – Generate detailed documentation to support engineering design, upgrades, and infrastructure planning.

Clash Detection Models – Enable early identification of conflicts between existing structures and proposed designs to reduce rework and delays.

Photo-Textured Point Clouds – Combine high-resolution imagery with scan data to provide clear visual context alongside accurate geometry.

Measured Survey Data – Capture precise measurements and spatial relationships to support surveying, verification, and QA processes.

Custom Project Deliverables – Tailor outputs to suit project requirements, from raw data through to fully modelled and documented deliverables.

Software & Technology

Virtual Reality Information Pack & Price List

Start Your 3D Scanning Project

Speak with our team or request our 3D Scanning Information Pack & Price Guide.

Whether you’re planning a reality capture project, need accurate point clouds, BIM modelling, or are exploring digital twin solutions, our team can help. Complete the form below and we’ll send you our 3D Scanning Information Pack & Price Guide, along with details on how our scanning process works and typical project costs. If you’d prefer to talk it through, feel free to call us on 1300 00 3392

Our Recent Projects

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Frequently Asked Questions

What is an as-built survey and how does 3D laser scanning help?

An as-built survey documents the exact dimensions and layout of an existing building or structure. Using 3D laser scanning, millions of measurement points are captured to create an accurate digital representation of the space. This data can then be used to produce BIM models, CAD drawings, floor plans and point cloud datasets, helping architects and engineers design renovations or new works with confidence.

What is the difference between LiDAR scanning and photogrammetry?

LiDAR scanning uses laser sensors to measure distances and capture millions of highly accurate spatial points, creating a precise 3D point cloud of a building or environment. Photogrammetry uses overlapping photographs to reconstruct 3D models, which can be useful for visualisation but is generally less accurate for measurement. For architectural surveys, construction planning and Scan-to-BIM projects, LiDAR scanning is typically preferred because it delivers higher accuracy and more reliable spatial data.

How much does a 3D laser scanning project cost?

The cost of a 3D scanning project depends on several factors including site size, building complexity, deliverables required and the type of scanner used. Smaller projects may be completed for a few thousand dollars, while larger commercial or infrastructure projects require more extensive capture and modelling work. A tailored quote is typically provided after reviewing the project scope.

Can 3D scanning be used for renovations and refurbishment projects?

Yes. Laser scanning is widely used to create accurate existing-conditions documentation before renovation or refurbishment work begins. By capturing the building geometry in detail, designers and contractors can reduce measurement errors, improve coordination and avoid costly rework during construction.

Do you provide 3D laser scanning services across Australia?

Yes. 3D Walkabout operates scanning teams across major Australian cities including Sydney, Melbourne, Brisbane, Perth and Adelaide, and can deploy to regional and remote locations nationwide. Our team regularly works on projects ranging from single buildings to large industrial and infrastructure sites.

What is Scan-to-BIM modelling?

Scan-to-BIM is the process of converting laser scanning data into a Building Information Model (BIM). Using the captured point cloud, specialists create detailed digital models of the building in software such as Autodesk Revit. These models can include architectural, structural and MEP elements depending on the required Level of Development (LOD).

What is a point cloud and how is it used?

A point cloud is a digital dataset made up of millions of measured points that represent the exact geometry of a building or environment. These datasets allow architects, engineers and contractors to analyse existing conditions and create accurate models. Point clouds are commonly used as the foundation for Scan-to-BIM and as-built documentation.

What deliverables do you receive after a 3D scanning project?

Typical deliverables include registered 3D point cloud datasets, BIM models, CAD drawings, panoramic imagery and digital walkthroughs. Files can be provided in formats such as RCS/RCP, E57, Revit models and DWG drawings so they integrate easily into common design and construction software.

How long does a 3D laser scanning project take?

The time required depends on the size and complexity of the site. Smaller buildings can often be captured in a few hours, while larger commercial or industrial sites may take one or more days of scanning. Once the data is captured, processing and deliverables such as point clouds or BIM models are typically delivered within several business days.

What types of buildings and spaces can be scanned?

3D laser scanning can be used on almost any built environment including residential buildings, commercial offices, retail centres, industrial warehouses, hospitals, schools, infrastructure sites and heritage buildings. Large facilities such as campuses, factories and shopping centres can also be scanned using mobile LiDAR technology.

How accurate is LiDAR scanning for construction projects?

Modern terrestrial laser scanners can capture measurements with millimetre-level accuracy, depending on the equipment used. Survey-grade scanners such as the Leica RTC360 can achieve accuracy of around ±1.9 mm at 10 metres. This level of precision makes laser scanning suitable for architectural surveys, construction verification, and detailed BIM modelling.

What is 3D laser scanning for buildings?

3D laser scanning is a reality capture technology that uses LiDAR sensors to measure buildings and environments with millions of precise data points. The result is a highly detailed 3D point cloud that represents the exact geometry of the space. This data can then be used for Scan-to-BIM modelling, CAD drawings, digital twins, and building documentation.