Engineering Confidence in South Yarra, Melbourne

LiDAR scanning Melbourne

Melbourne has long been recognised as one of Australia’s most advanced engineering and manufacturing centres, and inner-city hubs such as South Yarra sit at the intersection of design, industry, infrastructure, and innovation. As projects become more complex and timelines more compressed, engineering teams are increasingly seeking partners who can reduce uncertainty, improve accuracy, and provide reliable technical insight from day one.

This is where Hamilton By Design delivers genuine value.

Hamilton By Design operates as an engineer-led consultancy focused on precision, constructability, and real-world outcomes. Rather than working from assumptions or incomplete information, the business is built around capturing existing conditions accurately and transforming that data into practical engineering deliverables that support confident decision-making.

Moving Beyond Assumptions in Modern Engineering

Many engineering challenges in metropolitan Melbourne are not greenfield projects. They involve existing buildings, operating facilities, constrained spaces, legacy assets, or staged upgrades that must integrate seamlessly with what is already in place. In these environments, relying on outdated drawings or manual measurements introduces risk — misalignment, clashes, rework, and delays that can quickly erode budgets and schedules.

Hamilton By Design addresses this challenge by placing reality capture and engineering validation at the front end of projects. This ensures that every downstream decision is based on what truly exists on site, not what is assumed to exist.

For engineering teams working in and around South Yarra — whether supporting manufacturing, infrastructure, plant upgrades, or specialist facilities — this approach significantly reduces technical risk and increases confidence across all stakeholders.

LiDAR Scanning as a Foundation for Accuracy

A key capability that differentiates Hamilton By Design is its use of engineering-grade LiDAR scanning. Unlike traditional surveys that capture selective points, LiDAR scanning records millions of measurements across an entire environment, producing a high-resolution digital representation of buildings, plant, structures, and surrounding context.

This data becomes a reliable reference point for engineers, designers, fabricators, and project managers alike.

LiDAR scanning enables:

Accurate capture of complex geometries and tight spaces
Clear identification of spatial constraints and interfaces
Early detection of clashes and access issues
Reduced need for repeat site visits
Improved coordination between disciplines

By converting physical assets into precise digital data, Hamilton By Design helps teams eliminate ambiguity and work from a single source of truth.

From Scan Data to Engineering Outcomes

Importantly, Hamilton By Design does not operate as a scanning-only service. The real value lies in how scan data is interpreted, validated, and converted into engineering outputs that directly support delivery.

Scan information is used to develop structured models, layouts, and documentation that reflect real-world conditions. This supports engineering activities such as:

Mechanical and structural modifications
Plant upgrades and equipment integration
Space planning and layout optimisation
Fabrication and installation planning
Asset documentation and as-built records

Because the work is led by experienced engineers, the focus is always on what needs to be built, installed, or modified, not just on creating visually impressive models.

Supporting Engineering Teams and Decision-Makers

In a business and engineering environment like South Yarra — where projects are often time-sensitive and commercially driven — external engineering support must be reliable, efficient, and technically sound.

Hamilton By Design integrates smoothly with internal teams, consultants, and contractors, providing additional technical depth without adding unnecessary complexity. The consultancy model is deliberately structured to support decision-makers who need clarity, not noise.

This means:

Clear communication of constraints and risks
Practical recommendations grounded in real site data
Deliverables aligned with fabrication and construction needs
Engineering documentation that supports approval and execution

The result is fewer surprises downstream and a smoother path from concept through to implementation.

Engineering for Brownfield and Live Environments

One of the most challenging aspects of modern engineering is working within live or brownfield environments — facilities that cannot simply shut down for measurement, redesign, or rework. In these settings, accuracy and planning are critical.

Hamilton By Design’s LiDAR-driven workflows are particularly well suited to these conditions. Rapid data capture minimises disruption on site, while the detailed digital record allows engineering work to continue remotely with confidence.

This approach supports safer planning, better coordination, and reduced exposure to operational risk — outcomes that are highly valued by engineering leaders and project managers alike.

A Practical, Engineer-Led Philosophy

At its core, Hamilton By Design operates on a simple but powerful principle: engineering should be grounded in reality. By combining high-accuracy site data with deep engineering experience, the consultancy helps organisations make informed decisions, avoid costly mistakes, and deliver projects that work the first time.

For organisations operating in South Yarra and the broader Melbourne region, this means access to an engineering partner who understands both the technical and commercial pressures of modern project delivery.

Engineering Certainty in a Complex World

As engineering projects continue to increase in complexity, the margin for error continues to shrink. Those who invest early in accurate data and sound engineering judgement gain a clear advantage — fewer delays, lower risk, and better outcomes.

Hamilton By Design provides that advantage by bridging the gap between the physical site and the engineering office. Through precise LiDAR scanning, practical engineering insight, and a strong focus on constructability, the consultancy supports confident, efficient, and reliable project delivery across Melbourne’s most demanding environments.

LiDAR scanning Melbourne

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20 December 202520 December 2025

From Reality to Results: How Hamilton By Design Delivers Engineering Success Through SolidWorks, Laser Scanning, and Intelligent Data Sharing

In complex engineering environments, success is rarely determined by a single calculation or drawing. It is determined by clarity—clarity of information, clarity of intent, and clarity across every handover point between site, engineer, fabricator, and installer.

Hamilton By Design was created around this idea.

Across mining, heavy industry, infrastructure, and complex buildings, projects increasingly fail not because engineers lack capability, but because teams are working from incomplete, inconsistent, or unreliable information. Assumptions creep in. Measurements are approximated. Old drawings are trusted when they should not be. By the time fabrication or installation begins, risk has already been locked into the project.

Hamilton By Design approaches engineering differently. By combining engineer-led 3D laser scanning, SolidWorks-based mechanical design, and clear, practical data sharing, we reduce uncertainty at the very start of a project—and that single shift changes everything that follows.

Engineering begins with reality, not assumptions

Every project starts with an existing environment. Whether it is a CHPP in the Bowen Basin, a brownfield processing plant, a congested industrial building, or a live infrastructure asset, the reality on site is often more complex than any drawing suggests.

Hamilton By Design begins with capturing reality as it actually exists.

Using high-accuracy 3D laser scanning, site conditions are recorded in full context: structure, equipment, services, clearances, and access constraints. This is not about producing pretty visuals—it is about creating a measurable, defensible digital reference that engineers can trust.

Unlike traditional measurement methods, laser scanning:

Captures millions of data points per second
Records geometry that is difficult or unsafe to measure manually
Preserves site information long after access windows close
Eliminates reliance on assumptions and partial measurements

For engineering teams, this changes the starting point of the project from “what we think is there” to “what we know is there.”

Why the FARO Focus S70 fits Hamilton By Design’s workflow

Hamilton By Design uses the FARO Focus S70 laser scanner because it strikes the right balance between accuracy, portability, and ease of use—qualities that matter in live industrial environments.

The Focus S70 is particularly well suited to:

Brownfield industrial sites
Mining and materials-handling plants
Buildings with tight access or active operations
Remote locations where speed and reliability matter

From a practical engineering perspective, its ease of deployment is critical. Scans can be completed quickly, often without disrupting operations, and without the need for complex setup or prolonged site occupation. This means:

Shorter site visits
Reduced exposure to operational risk
More flexibility around shutdown or access windows

Just as importantly, the data produced is clean, consistent, and immediately usable within downstream engineering workflows.

At Hamilton By Design, scanning is not outsourced or treated as a separate discipline. The same engineers who design the solution are involved in planning the scan, understanding what information matters, and verifying that the captured data is fit for purpose.

This engineer-led approach is one of the quiet but critical advantages that underpins project success.

Turning point clouds into engineering intelligence

Raw point clouds are powerful—but only if they are translated into meaningful engineering information.

This is where Hamilton By Design’s use of SolidWorks becomes central to our workflow.

SolidWorks provides a flexible, parametric modelling environment that allows scanned data to be transformed into:

Accurate 3D mechanical models
Structural steel frameworks
Equipment layouts
Platforms, guards, chutes, and pipework
Assemblies designed specifically for fabrication and installation

By importing and referencing point clouds directly within SolidWorks, engineers are no longer designing in isolation. Every model is built in context, anchored to the real geometry of the site.

This approach delivers several key advantages:

Components fit the first time
Clearances are verified early
Interfaces with existing assets are fully understood
Installation sequencing can be considered during design

Rather than working around uncertainty, engineers are free to focus on optimisation, constructability, and safety.

SolidWorks as a collaboration platform, not just a design tool

One of the most underestimated strengths of SolidWorks is how well it supports collaboration and communication across project teams.

At Hamilton By Design, SolidWorks models are not treated as internal artefacts. They are shared, reviewed, and used as communication tools.

Through native files, neutral formats, and lightweight viewing options:

Fabricators can interrogate geometry before cutting steel
Site teams can visualise assemblies before installation
Clients can understand scope and interfaces without reading complex drawings
Engineers can identify risks long before they appear on site

This transparency dramatically reduces misinterpretation. When everyone is looking at the same model—derived from the same scan—alignment improves naturally.

The result is fewer RFIs, fewer site surprises, and a smoother transition from design to construction.

Fabrication-ready outcomes, not theoretical models

Hamilton By Design places a strong emphasis on fabrication-ready deliverables.

Because models are developed with manufacturing in mind, downstream drawings are clearer, more consistent, and easier to build from. This includes:

Clear general arrangement drawings
Detailed part and assembly drawings
Logical BOMs aligned to procurement
Realistic tolerances based on site conditions

Fabricators appreciate drawings that reflect how things are actually built—not just how they look on screen. By grounding design in scan data and modelling within SolidWorks, Hamilton By Design produces outputs that align closely with workshop reality.

This reduces rework in the shop and stress during shutdowns, where time pressure is highest.

Technology alone does not deliver project success. The real differentiator is how information is shared.

Hamilton By Design places significant emphasis on making data:

Accessible
Understandable
Reusable

Point clouds, models, drawings, and supporting data are structured so they can be:

Revisited for future projects
Used by different stakeholders
Built upon rather than recreated

This is particularly valuable in long-life industrial assets, where today’s modification becomes tomorrow’s interface.

By maintaining continuity of data across projects, clients build a digital asset—not just a set of drawings. Over time, this reduces engineering cost, shortens project timelines, and increases confidence in future upgrades.

Ease of use drives adoption and value

One of the reasons the FARO Focus S70 and SolidWorks work so well together is their ease of use relative to the value they deliver.

Ease of use matters because:

It shortens learning curves
It reduces reliance on niche specialists
It allows engineers to stay focused on engineering, not software complexity

At Hamilton By Design, tools are selected not because they are fashionable, but because they support repeatable, reliable outcomes.

Scanning workflows are streamlined. Modelling practices are consistent. File structures are logical. This discipline ensures that projects scale smoothly, whether they involve a small retrofit or a major plant upgrade.

Reducing risk where it matters most

In industrial and mining projects, risk concentrates at interfaces:

New steel to old steel
New equipment to existing plant
Design intent to site execution

Hamilton By Design’s integrated workflow reduces risk at these interfaces by ensuring:

Geometry is verified early
Interfaces are modelled, not guessed
Decisions are made with full context

This approach shifts risk out of the shutdown window and into the design phase—where it is cheaper and safer to manage.

A philosophy built around accountability

What truly differentiates Hamilton By Design is not just technology, but ownership.

The same team is responsible for:

Capturing site data
Interpreting it
Designing the solution
Producing fabrication-ready outputs

There is no fragmentation between disciplines, no handover gaps where responsibility becomes unclear. This single-source accountability builds trust with clients, fabricators, and site teams alike.

The compound effect of doing it right

When accurate data, SolidWorks-based design, and clear information sharing come together, the benefits compound:

Fewer site visits
Shorter design cycles
More confident fabrication
Smoother installations
Better long-term asset knowledge

Over time, this approach changes how projects are delivered. Engineering becomes proactive rather than reactive. Problems are solved digitally instead of on site. Teams collaborate instead of firefighting.

Engineering for real-world success

Hamilton By Design’s workflow is not built around theory. It is built around what actually happens on site.

By grounding every project in reality through laser scanning, translating that reality into SolidWorks models, and sharing information clearly across all stakeholders, Hamilton By Design helps projects succeed where it matters most: in fabrication shops, during shutdowns, and on live sites.

In an industry where uncertainty is expensive and time is unforgiving, clarity becomes the most valuable engineering output of all.

That is the philosophy behind Hamilton By Design—and the reason our approach continues to deliver consistent, practical success across complex engineering projects.

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6 December 202517 December 2025

Laser Scanning Hunter Valley: Delivering Engineering-Grade Accuracy for Mining, Manufacturing and Industrial Projects

The Hunter Valley remains one of Australia’s most important industrial regions. With world-class mining operations, CHPP facilities, fabrication workshops, power generation assets and major industrial precincts, the region depends on precision, reliability and efficient project planning. As plants age and infrastructure expands, the challenge of capturing accurate site information becomes increasingly critical.

This is why laser scanning in the Hunter Valley has rapidly become a foundational tool for maintenance, engineering, redesign, shutdown preparation and fabrication accuracy. Organisations across the region are turning to laser scanning because the demands of modern industrial work simply cannot be met with traditional tape measurements or outdated drawings.

Hamilton By Design is proud to deliver engineering-grade laser scanning throughout the Hunter Valley, supporting safer worksites, faster project execution and significantly improved installation outcomes. Below, we explore why laser scanning is essential, how the technology works and how it transforms operations across the region.

Why Laser Scanning Has Become Essential in the Hunter Valley

Across the Hunter, very few sites resemble their original drawings. Over decades, plants evolve—structures deform, temporary fixes become permanent, equipment shifts, and countless undocumented modifications occur.

These realities create a major problem:
Projects that rely on inaccurate measurements inevitably face delays, rework and installation challenges.

The consequences of bad data include:

Structural steel not fitting on site
Conveyor alignment issues
Misaligned chutes or transfer points
Inaccurate pipe spool lengths
Unexpected clashes in congested areas
Extended shutdown duration
Significant cost blowouts

By contrast, laser scanning in the Hunter Valley provides a millimetre-accurate digital representation of the real site, eliminating uncertainty and enabling confident engineering decisions.

How Laser Scanning Works

Laser scanning—also known as LiDAR (Light Detection and Ranging)—captures millions of precise data points across a site in seconds. These points create a “point cloud,” a detailed 3D representation of the scanned environment.

The Hamilton By Design workflow typically includes:

1. On-Site High-Accuracy Capture

We scan assets such as:

Structural frames
Conveyors, transfer towers and walkways
Chutes, bins, hoppers and material-handling systems
Tanks and pipe networks
Mechanical equipment
Buildings and platforms
Processing areas and plant rooms

Scanning is performed safely, quickly and with minimal disruption to operations.

2. Point Cloud Processing

Individual scans are aligned and merged into a single, unified as-built dataset.

3. CAD Modelling

From the point cloud, we create:

Accurate 3D models
General arrangement drawings
Fabrication details
DXF files for workshop use
Digital templates for pattern development

4. Engineering & Fabrication Support

We run digital checks for:

Clearances
Misalignments
Bolt pattern accuracy
Clash detection
Fit-up assurance

This ensures all new components, structures and mechanical systems integrate correctly the first time.

Industries in the Hunter Valley Using Laser Scanning

1. Mining & Coal Handling Preparation Plants (CHPPs)

The Hunter Valley is one of Australia’s largest mining hubs, and laser scanning has become indispensable for:

Chute redesign and optimisation
Conveyor alignment and pulley checks
Structural replacements
Screening and crushing system upgrades
Transfer tower modifications
Bin and hopper geometry capture
Shutdown planning and scope definition

In CHPP environments—where dust, vibration, wear and deformation are constant—accurate as-built data is essential for safe and efficient upgrades.

2. Local Fabrication Workshops

Fabricators across Singleton, Muswellbrook, Rutherford and Thornton rely on precise digital information to ensure their products fit perfectly in the field. Laser scanning supports:

Steel replacement projects
Pipe spool fabrication
Custom chutes and transfer systems
Platform and walkway upgrades
Reverse engineering worn components

By basing fabrication on exact site geometry, rework and installation delays are dramatically reduced.

3. Power Stations and Energy Infrastructure

The Hunter Valley contains major energy assets requiring constant maintenance and upgrades. These aging facilities benefit greatly from laser scanning for:

Structural integrity assessments
Boiler house modifications
Pipe rerouting and replacements
Access platform upgrades
Plant room modelling
Compliance documentation

Laser scanning supports safe access, better planning and accurate engineering.

4. Industrial, Manufacturing and Infrastructure Projects

The region’s industrial footprint is expanding, and many facilities require precise as-built data for:

Renovations or expansions
Facility mapping
Mechanical upgrades
Brownfield redevelopment
BIM integration

Laser scanning provides the detail needed to plan these works correctly.

Benefits of Laser Scanning in the Hunter Valley

1. Millimetre Accuracy

Unlike manual measurements, laser scanning captures true geometry—not assumptions.

2. Reduced Rework

Digitally verified data ensures that fabrication is correct the first time.

3. Improved Safety

No need for workers to climb, stretch, or enter hazardous areas to measure.

4. Faster Shutdowns

Accurate pre-planning reduces onsite delays.

5. Digital Collaboration

Point clouds allow teams, contractors and engineers to review the site remotely.

6. Enhanced Engineering Confidence

Decisions are made on verified data, improving outcomes across the entire project lifecycle.

The Hamilton By Design Advantage

Hamilton By Design delivers more than just scanning—we combine decades of engineering, drafting and fabrication experience to interpret the data with real-world understanding.

What Sets Us Apart:

Engineering-Driven Approach

We understand the mechanical and structural context behind each scan.

Full Digital Workflow

From scan → point cloud → 3D model → fabrication drawings → installation, we support your entire project.

Local Knowledge of Hunter Valley Industry

We work routinely with mines, CHPPs, fabricators and industrial facilities across the region.

Fabrication-Ready Outputs

All models and drawings are created with workshop requirements and site constraints in mind.

Confidence Before Installation

We digitally confirm fitment before steel is cut—removing risk.

Applications Where Laser Scanning Delivers Immediate Value

Chute replacements
Conveyor system upgrades
Access platforms and walkways
Crusher and screen changes
Transfer tower redesign
Pipe spool fabrication
Structural steel alignment checks
Bin, tank and hopper measurement
Reverse engineering
Brownfield plant expansions

Anywhere accuracy matters, scanning is the superior choice.

Laser Scanning in the Hunter Valley: The New Standard

Across the region, laser scanning is now considered a must-have for safe, efficient and predictable project delivery. As plants age and the complexity of upgrades increases, organisations that invest in accurate data significantly outperform those relying on outdated drawings or manual measuring.

For engineering teams, maintenance planners, workshop fabricators and shutdown coordinators, laser scanning provides the certainty required to deliver work on time and on budget.

Partner with Hamilton By Design

When you choose Hamilton By Design for laser scanning in the Hunter Valley, you’re choosing:

Accuracy
Safety
Engineering reliability
Better planning
Reduced risk
Efficient installation

We’re ready to support your next shutdown, upgrade, redesign or fabrication project with the digital precision it deserves.

Contact Hamilton By Design today to discuss your site and discover how laser scanning can transform your project outcomes.

Hunter Valley Laser Scanning: Transforming Engineering Accuracy Across Mining, Manufacturing and Infrastructure

3D Laser Scanning in Singleton and the Hunter: Delivering Accuracy for Mining, Manufacturing and Industrial Projects

3D Laser Scanning

3D Scanning in The Hunter Valley

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28 September 20257 December 2025

Seeing the Unseen: How LiDAR Scanning is Transforming Mining Process Plants

In modern mining, where uptime is money and safety is non-negotiable, understanding the geometry of your process plant is critical. Every conveyor, chute, pipe rack, and piece of equipment must fit together seamlessly and operate reliably — but plants are messy, dusty, and constantly changing. Manual measurement with a tape or total station is slow, risky, and often incomplete.

nfographic showing how LiDAR scanning is used in mining process plants, with illustrations of conveyors, crushers, tanks, mills and chutes. Labels highlight applications such as stockpile volumetrics, crusher inspections, safety and risk management, chute wear and blockages, mill wear measurement, tank deformation monitoring and creating digital twins.

This is where LiDAR scanning (Light Detection and Ranging) has become a game-changer. By capturing millions of precise 3D points per second, LiDAR gives engineers, maintenance planners, and operators an exact digital replica of the plant — without climbing scaffolds or shutting down equipment. In this post, we’ll explore how mining companies are using LiDAR scanning to solve real problems in processing plants, improve safety, and unlock operational efficiency.

What Is LiDAR Scanning?

LiDAR is a remote sensing technology that measures distance by firing pulses of laser light and recording the time it takes for them to return. Modern terrestrial and mobile LiDAR scanners can:

Capture hundreds of thousands to millions of points per second
Reach tens to hundreds of meters, depending on the instrument
Achieve millimeter-to-centimeter accuracy
Work in GPS-denied environments, such as inside mills, tunnels, or enclosed plants (using SLAM — Simultaneous Localization and Mapping)

The output is a point cloud — a dense 3D dataset representing surfaces, equipment, and structures with stunning accuracy. This point cloud can be used as-is for measurements or converted into CAD models and digital twins.

Why Process Plants Are Perfect for LiDAR

Unlike greenfield mine sites, processing plants are some of the most geometry-rich and access-constrained areas on site. They contain:

Complex networks of pipes, conveyors, tanks, and structural steel
Moving equipment such as crushers, mills, and feeders
Dusty, noisy, and hazardous environments with limited safe access

All these factors make traditional surveying difficult — and sometimes dangerous. LiDAR enables “no-touch” measurement from safe vantage points, even during operation. Multiple scans can be stitched together to create a complete model without shutting down the plant.

Applications of LiDAR in Process Plants

1. Wear Measurement and Maintenance Planning

LiDAR has revolutionized how mines measure and predict wear on critical process equipment:

SAG and Ball Mill Liners – Portable laser scanners can capture the exact wear profile of liners. Comparing scans over time reveals wear rates, helping maintenance teams schedule relines with confidence and avoid premature failures.
Crusher Chambers – Scanning inside primary and secondary crushers is now faster and safer than manual inspections. The resulting 3D model allows engineers to assess liner life and optimize chamber profiles.
Chutes and Hoppers – Internal scans show where material buildup occurs, enabling targeted cleaning and redesign to prevent blockages.

Result: Reduced downtime, safer inspections, and better forecasting of maintenance budgets.

2. Retrofit and Expansion Projects

When modifying a plant — installing a new pump, rerouting a pipe, or adding an entire circuit — having an accurate “as-built” model is crucial.

As-Built Capture – LiDAR provides an exact snapshot of the existing plant layout, eliminating guesswork.
Clash Detection – Designers can overlay new equipment models onto the point cloud to detect interferences before anything is fabricated.
Shutdown Optimization – With accurate geometry, crews know exactly what to cut, weld, and install — reducing surprise field modifications and shortening shutdown durations.

3. Inventory and Material Flow Monitoring

LiDAR is not just for geometry — it’s also a powerful tool for tracking material:

Stockpile Volumetrics – Mounted scanners on stackers or at fixed points can monitor ore, concentrate, and product stockpiles in real time.
Conveyor Load Measurement – Stationary LiDAR above belts calculates volumetric flow, giving a direct measure of throughput without contact.
Blending Control – Accurate inventory data improves blending plans, ensuring consistent plant feed quality.

4. Safety and Risk Management

Perhaps the most valuable application of LiDAR is keeping people out of harm’s way:

Hazardous Floor Areas – When flooring or gratings fail, robots or drones with LiDAR payloads can enter the area and collect data remotely.
Fall-of-Ground Risk – High walls, bin drawpoints, and ore passes can be scanned for unstable rock or buildup.
Escape Route Validation – Scans verify clearances for egress ladders, walkways, and platforms.

Every scan effectively becomes a permanent digital record — a baseline for monitoring ongoing structural integrity.

5. Digital Twins and Advanced Analytics

A plant-wide LiDAR scan is the foundation of a digital twin — a living, data-rich 3D model connected to operational data:

Combine scans with SCADA, IoT, and maintenance systems
Visualize live process variables in context (flow rates, temperatures, vibrations)
Run “what-if” simulations for debottlenecking or energy optimization

As AI and simulation tools mature, the combination of geometric fidelity and operational data opens new possibilities for predictive maintenance and autonomous plant operations.

Emerging Opportunities

Looking forward, there are several promising areas for LiDAR in mining process plants:

Autonomous Scan Missions – Using quadruped robots (like Spot) or SLAM-enabled drones to perform routine scanning in high-risk zones.
Real-Time Change Detection – Continuous scanning of critical assets with alerts when deformation exceeds thresholds.
AI-Driven Point Cloud Analysis – Automatic object recognition (valves, flanges, motors) to speed up model creation and condition reporting.
Integrated Planning Dashboards – Combining LiDAR scans, work orders, and shutdown schedules in a single interactive 3D environment.

Best Practices for Implementing LiDAR

To maximize the value of LiDAR scanning, consider:

Define the Objective – Are you measuring wear, planning a retrofit, or building a digital twin? This affects scanner choice and resolution.
Plan Scan Positions – Minimize occlusions and shadow zones by preplanning vantage points.
Use Proper Registration – Tie scans to a control network for consistent alignment between surveys.
Mind the Environment – Dust, fog, and vibration can degrade data; choose scanners with appropriate filters or protective housings.
Invest in Processing Tools – The raw point cloud is only the start — software for meshing, modeling, and analysis is where value is extracted.
Train Your Team – Build internal capability for scanning, processing, and interpreting the results to avoid vendor bottlenecks.

Infographic showing a 3D LiDAR scanner on a tripod surrounded by eight best-practice principles: start with clear objectives, plan your scanning campaign, prioritize safety, optimize data quality, ensure robust registration and georeferencing, establish repeatability, integrate with downstream systems, and train people with documented procedures

LiDAR scanning is no longer a niche technology — it is rapidly becoming a standard tool for mining process plants that want to operate safely, efficiently, and with fewer surprises. From mill liners to stockpiles, from shutdown planning to digital twins, LiDAR provides a clear, measurable view of assets that was impossible a decade ago.

For operations teams under pressure to deliver more with less, the case is compelling: better data leads to better decisions. And in a high-stakes environment like mineral processing, better decisions translate directly to improved uptime, reduced costs, and safer workplaces.

The next time you’re planning a shutdown, a retrofit, or even just trying to understand why a chute is plugging, consider pointing a LiDAR scanner at the problem. You may be surprised at how much more you can see — and how much time and money you can save.

3D Scanning | Mining Surface Ops | 3D Modelling

Mechanical Engineering | Structural Engineering

Mechanical Drafting | Structural Drafting

3D CAD Modelling | 3D Scanning

Chute Design

SolidWorks Contractors in Australia

Hamilton By Design – Blog

21 September 20256 December 2025

Why 3D Point Clouds + Expert Modelers Are a Game-Changer for Your Projects

Infographic illustrating the 3D project data workflow, showing LiDAR scanners and drones capturing millions of data points, a designer modelling on a computer, and project teams validating accurate 3D data, highlighting benefits such as speed, accuracy, cost savings and project success.

Level Up your 3D Scans

In today’s world, accuracy and efficiency can make or break a project. Whether you’re working in architecture, construction, engineering, or product design, you need reliable data — and you need it fast. That’s where 3D point clouds come in.

But there’s an important catch: not all scans are created equal. The difference between an average scan and a great one often comes down to the person behind the scanner. Having someone who understands 3D modeling take the scans can dramatically improve your project’s accuracy, reliability, and overall success.

Let’s break down why.

The Power of 3D Point Clouds

Point clouds are essentially millions of tiny data points that capture the shape of an object, room, or entire site. Together, they create a highly detailed digital snapshot of the real world.

Here’s why this matters:

Precision you can trust – Point clouds deliver incredibly detailed measurements, capturing even the smallest curves and angles.
Nothing gets missed – Multiple scan angles ensure a full, 360° view of your site or object.
Speed and efficiency – What used to take hours (or days) with manual measurements can be captured in minutes.
Built-in context – You’re not just getting numbers; you’re getting a complete digital environment to work inside.
Future-proof data – Once you have a scan, you have a permanent record of your space, ready to use months or years later.

From clash detection to as-built verification, point clouds save time, reduce errors, and make collaboration across teams smoother than ever.

Why the Person Taking the Scan Matters

While technology is powerful, experience is what makes the results reliable. Having a skilled 3D modeler operate the scanner can be the difference between a good project and a great one.

Here’s why an expert makes all the difference:

They know what matters – A modeler understands which details are critical for your project and ensures they’re captured.
Fewer gaps, fewer surprises – Experienced pros know how to plan scan positions to cover every angle and avoid blind spots.
Cleaner, more accurate data – They reduce common issues like noise, misalignment, or missing sections that can throw off your model.
Time saved, headaches avoided – No one wants to redo a scan halfway through a project. A professional ensures you get it right the first time.
Confidence from start to finish – When you know your model is accurate, you can move forward with design and construction decisions without second-guessing.

In short: a great scanner operator doesn’t just deliver data — they deliver peace of mind.

The Bottom Line

3D point clouds are already transforming how projects are planned and delivered. But pairing them with an experienced 3D modeler takes things to the next level.

You’ll get better data, faster turnarounds, and a far lower risk of costly mistakes. And when your goal is to deliver projects on time, on budget, and with zero surprises, that’s an edge you can’t afford to miss.

3D Modelling | 3D Scanning | Point Cloud Scanning

4 July 202520 December 2025

3D Laser Scanning and CAD Modelling Services | Hamilton By Design

There are two things we’ve always believed at Hamilton By Design:

Accuracy matters.
If you can model it before you make it, do it.

That’s why when the FARO Focus S70 hit the scene in 2017, we were early to the party — not just because it was shiny and new (though it was), but because we knew it would change how we support our clients in mining, processing, and manufacturing environments.

The S70 didn’t just give us a tool — it gave us a superpower: the ability to see an entire site, down to the bolt heads and pipe supports, in full 3D before anyone picked up a wrench. Dust, heat, poor lighting — no problem. With its IP54 rating and extended temperature range, this scanner thrives where other tools tap out.

And we’ve been putting it to work ever since.

“Measure Twice, Cut Once” Just Got a Whole Lot More Real

Laser scanning means we no longer rely on outdated drawings, forgotten markups, or that sketch someone did on the back of a clipboard in 2004.

We’re capturing site geometry down to millimetres, mapping full plant rooms, structural steel, conveyors, tanks, ducts — you name it. And the moment we leave site, we’ve already got the data we need, registered and ready to drop into SolidWorks.

Which, by the way, we’ve been using since 2001.

Yes — long before CAD was cool, we were deep into SolidWorks building models, simulating loads, tweaking fit-ups, and designing smarter mechanical solutions for complex environments. It’s the other half of the story — scan it, then model it, all in-house, all under one roof.

Safety by Design – Literally

Here’s the part people often overlook: 3D laser scanning isn’t just about accuracy — it’s about safety.

We’ve worked across enough plants and mine sites to know that the real hazards are often the things you don’t see in a drawing. Tight access ways. Awkward pipe routing. Obstructions waiting to drop something nasty when a shutdown rolls around.

By scanning and reviewing environments virtually, we can spot those risks early — hazard identification before boots are even on the ground. We help clients:

Reduce time-on-site
Limit the number of field visits
Minimise exposure to high-risk zones
Plan safer shutdowns and installations

That’s a big win in any plant or processing facility — not just for compliance, but for peace of mind.

SolidWorks 3D Modelling
CAD model from site scan

From Point Cloud to Problem Solved

Since 2017, our scanning and modelling workflows have supported:

Brownfield upgrade projects
Reverse engineering of legacy components
Fabrication and installation validation
Creation of digital twins
Asset audits and documentation updates

And when you pair that with 24 years of SolidWorks expertise, you get more than just a pretty point cloud — you get practical, buildable, fit-for-purpose engineering solutions backed by deep industry knowledge.

Thinking about your next project? Let’s make it smarter from the start.

We’ll scan it, model it, and engineer it as we have been doing for decades — with zero guesswork and full confidence.

www.hamiltonbydesign.com.au

Mechanical Engineering | Structural Engineering

Mechanical Drafting | Structural Drafting

3D CAD Modelling | 3D Scanning

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