Geo Reference IFC Models in BricsCAD for UK BIM Coordination

When working on complex construction and infrastructure projects in the United Kingdom, achieving flawless spatial coordination is paramount. As Building Information Modelling (BIM) becomes widely used across UK construction and infrastructure projects, the demand for reliable, accurately located models has never been higher. If a structural model does not perfectly align with the architectural intent or the civil drainage scheme, the resulting clashes can lead to costly delays on site.

For professionals using BricsCAD, mastering the art of spatial positioning is a fundamental skill. When learning how to Geo Reference IFC Models in BricsCAD for UK BIM Coordination, you must first understand how local model space interacts with real-world map coordinates. This guide will walk you through the essential workflows, standards and technical checks needed to improve the reliability of IFC model positioning during BIM coordination.

Understanding Coordinate Systems in BIM

Before diving into the technical setup, it is crucial to grasp the underlying spatial concepts that govern 3D modelling and geolocation. A common stumbling block for many BIM coordinators is the fundamental difference between the BricsCAD World Coordinate System vs User Coordinate System.

The World Coordinate System (WCS) is the fixed, absolute framework within your BricsCAD drawing. The origin point (0,0,0) is immutable. The User Coordinate System (UCS), on the other hand, is a flexible working environment that you can rotate and move to make modelling easier. For example, if a building grid is angled to True North, you may align the UCS to the building grid to simplify modelling, while True North is defined separately against the drawing’s Y axis through the geographic location or survey location settings.

BricsCAD defines North Direction as the angle between True North and the Y axis, measured clockwise.

The real challenge arises when mapping local coordinates to global map systems. Global coordinate systems, such as the British National Grid, feature vast coordinate numbers (often hundreds of thousands of metres from the origin). Modelling directly at these immense coordinates can cause graphical glitches and inaccuracies due to computer floating-point limitations. For many building BIM workflows, it is good practice to model close to a local origin and use georeferencing data to relate the model to real world coordinates. However, the agreed project coordinate strategy should always be confirmed in the BIM Execution Plan or project information requirements, especially on infrastructure or civil projects that may use real world coordinates directly.

The Importance of Accurate Geolocation for UK Projects

In the UK, the AEC (Architecture, Engineering, and Construction) industry operates under rigorous information management standards. ISO 19650 is an information management framework for BIM projects. It does not by itself define a coordinate system, but project teams should document an agreed coordinate strategy so that models, drawings and exchanged information can be checked and coordinated consistently.

The benefits of shared coordinates in multi-disciplinary design are immense. When the architect, structural engineer, and MEP consultant all work to the same spatial framework, their federated models will seamlessly snap together during clash detection processes.

For projects in Great Britain, this spatial framework often uses Ordnance Survey mapping and the British National Grid. Ordnance Survey’s National Grid is used for mapping in Great Britain, but it should not be described as the coordinate system for the whole UK. Northern Ireland and some cross border projects may use different coordinate reference systems.

EPSG lists EPSG:27700 as OSGB36 / British National Grid, with an area of use covering onshore Great Britain and the Isle of Man, not the whole UK. 

By aligning your BricsCAD model to this grid, you ensure that your digital building sits accurately within the physical landscape, allowing for precise daylight analysis, logistical planning, and integration with local authority GIS (Geographic Information System) data.

Preparing Your Data: Aligning with OS Maps

Before you can correctly geo-reference an IFC file, you must establish the exact geographical position of your site. This begins with 2D data. Understanding how to align CAD drawings with OS maps is your first practical step.

  1. Obtain Accurate Survey Data: Procure OS mapping, a digital topographical survey or other project approved survey data. For Great Britain projects, this may be supplied in British National Grid eastings and northings, but the exact coordinate reference system, vertical datum, units and transformation method should be confirmed by the project team.
  2. Identify a Known Point: Locate a specific, identifiable point on the survey that will serve as your project base point. This could be a site boundary corner, a specific survey peg, or the intersection of structural gridlines A and 1.
  3. Establish the Project Location: This chosen point defines your project location site location. You should record the agreed Easting, Northing, elevation, vertical datum and angle to True North for this point. For mainland Great Britain, heights are often related to Ordnance Datum Newlyn, but the project datum should always be confirmed. Ordnance Survey describes ODN as the national height datum used across mainland Great Britain, and EPSG lists OSGB36 National Grid plus ODN height as a separate 3D CRS from 2D EPSG:27700.

By establishing this data early on, you create a reliable anchor point that will dictate the spatial behaviour of all subsequent 3D modelling and IFC exports.

Step-by-Step: British National Grid Setup in BricsCAD

With your OS coordinates recorded, it is time to translate this data into your BricsCAD environment. We will achieve this by setting up the British National Grid EPSG:27700 BricsCAD setup. EPSG:27700 is the EPSG code for OSGB36 / British National Grid, a 2D projected coordinate reference system using metre based eastings and northings.

EPSG identifies EPSG:27700 as a Cartesian 2D coordinate system with eastings and northings in metres.

1. Setting the Geographical Location

To assign a real-world position to your local model, you will be configuring GEOGRAPHICLOCATION in BricsCAD.

  • Open your 3D model in BricsCAD. Ensure your model is drawn close to the local origin (0,0,0) for the reasons discussed earlier.
  • Type GEOGRAPHICLOCATION into the command line and press Enter.
  • In the dialog box that appears, you will have the option to set your location via a map or by entering specific coordinates. Choose the coordinate entry method.
  • Input the exact Easting, Northing, and Elevation of your previously established project base point.
  • Crucially, you must select the correct coordinate reference system (CRS). For many Great Britain projects this will be EPSG:27700, but confirm this against the project survey information. If the CRS is not available in BricsCAD, you may need to install the relevant CSMAP coordinate system files.

BricsCAD’s help explains that GEOGRAPHICLOCATION can select a CRS or manually add coordinates, and that CSMAP files can be installed to access additional coordinate systems.

2. Defining the Survey Point (BricsCAD survey location)

Next, you need to define how your local BricsCAD origin relates to these global coordinates. This is known as establishing the BricsCAD survey location.

  • In the Geographic Location dialog, you will be prompted to select a point in your drawing space that corresponds to the global coordinates you just entered. Click the exact point on your model (e.g., Grid Intersection A1).
  • Finally, define the North direction. If your model is drawn orthogonally (straight up and down on the screen) but the actual building sits at an angle on the site, you must specify the angle of True North relative to the Y-axis of your WCS.

Once confirmed, your BricsCAD model is successfully geo-referenced.

How to Geo Reference IFC Models in BricsCAD for UK BIM Coordination

Setting up the DWG environment is only the first half of the battle. The ultimate goal is to export an Industry Foundation Classes (IFC) file that retains this spatial intelligence. When looking at how to geo reference IFC BricsCAD workflows, the export settings are the critical bridge between native CAD and openBIM.

Setting the Base Point for Export

Setting project base point for IFC export ensures that the receiving software knows exactly how to translate your local geometry into the global space. BricsCAD BIM handles this intuitively, provided the Geographic Location has been set correctly as per the previous steps.

Configuring IFC Export Settings

To ensure maximum compatibility, especially on UK public sector projects, you must pay close attention to your IFC export settings for UK construction projects.

  1. Navigate to the BricsCAD BIM settings menu and locate the IFC Export options.
  2. Select the appropriate IFC schema. IFC4 is usually the better choice where IFC georeferencing needs to be exchanged, because BricsCAD exports IFC4 geographic location data using IfcMapConversion and IfcProjectedCRS when a CRS is defined. IFC2x3 can carry some site location information, but CRS handling is more limited and depends on export settings and receiving software support.BricsCAD’s own documentation says IFC4 exports longitude, latitude, elevation, True North and CRS from GEOGRAPHICLOCATION as IfcMapConversion and IfcProjectedCRS when a CRS is defined.
  3. Ensure that the option to export the geographic location is ticked. In IFC4, this uses IFC georeferencing entities such as IfcMapConversion and IfcProjectedCRS. These are not property sets. IfcProjectedCRS identifies the target coordinate reference system, while IfcMapConversion stores the translation, rotation and scale needed to relate the local engineering coordinate system to the map coordinate system. buildingSMART defines IfcMapConversion as transforming the local engineering coordinate system into the map coordinate reference system, using eastings, northings, orthogonal height, rotation and scale.

When you hit export, BricsCAD will package your 3D geometry alongside the rigorous spatial data required to place the building accurately in the real world.

Cross-Platform Collaboration: Bridging the Gap

In a typical UK BIM project, it is highly unlikely that every consultant will be using the same authoring software. A structural engineer might use BricsCAD, whilst the architect uses Autodesk Revit, and the civil engineer uses Civil 3D.

Understanding the nuances between BricsCAD BIM vs Revit coordinate systems is vital for a BIM Coordinator. Revit utilises a system of ‘Project Base Points’ and ‘Survey Points’. When IFC models are exchanged between BricsCAD, Revit, Civil 3D, Solibri or other coordination tools, the receiving software must support and correctly interpret the IFC georeferencing data. Do not assume that an IFC will always land in the exact correct position automatically. The BIM coordinator should run a test exchange, check the model against agreed survey control, and confirm positioning in the federation model before relying on it.

Research into IFC and GeoBIM interoperability has found that software support for IFC georeferencing can vary, so verification is still essential.

Consistent coordinates support model federation across platforms, but they should always be backed up by agreed survey control, documented coordinate settings, test exchanges and coordination checks.

Troubleshooting Common Geolocation Issues

Even with rigorous standards in place, spatial coordination can occasionally go awry. As a BIM professional, troubleshooting BricsCAD BIM geolocation errors is part of the daily routine. Here are some of the most frequent issues and how to resolve them.

The “Floating in Space” Issue

Perhaps the most common question asked by junior coordinators is: why does IFC model import far from origin?

This usually happens when a modeller has drawn their building at the actual global coordinates (e.g., X: 530000, Y: 180000) within the BricsCAD WCS, rather than drawing the model near the local origin (0,0,0) and using the Geographic Location tool to translate it. When this model is exported to IFC, viewing platforms like Solibri try to render the geometry hundreds of kilometres away from the centre of the viewing space, resulting in severe graphical flickering and navigation difficulties. To fix this, first check the agreed project coordinate strategy. For many building BIM workflows, the solution is to keep the model close to a local origin and use GEOGRAPHICLOCATION or survey location settings to relate it to real world coordinates. Do not move a live project model without confirming the change with the BIM coordinator and affected design teams.

The Misaligned Model

If you encounter an IFC model wrong location error during federation—where the model is correctly scaled but sits slightly offset or rotated incorrectly compared to other disciplines—the issue usually lies in a mismatched North angle or an incorrect base point selection.

To resolve this, initiate a coordination meeting with the lead appointed party. Verify the exact Easting, Northing, and North Angle specified in the BIM Execution Plan (BEP). Double-check your BricsCAD geographic location settings against these documented numbers. Often, a simple typo in the Easting coordinate or a missing decimal point in the True North angle is the culprit.

Missing Metadata

Occasionally, a federated model will fail to read the location data entirely. This can be caused by several issues, including no CRS being defined in GEOGRAPHICLOCATION, geographic data not being exported, use of IFC2x3 where the receiving workflow expects IFC4 georeferencing, or the receiving software not reading the IFC georeferencing data as expected. 

Where the project requires IFC georeferencing, use IFC4 where possible, define the CRS in GEOGRAPHICLOCATION, confirm that geographic location data is being exported, and test the IFC in the receiving coordination software.

Conclusion

Mastering spatial coordination is an indispensable skill for modern AEC professionals. By deeply understanding how to Geo Reference IFC Models in BricsCAD for UK BIM Coordination, you safeguard your projects against costly site errors, misalignments, and data integration failures.

Success relies on a meticulous approach: start by aligning your 2D data accurately with Ordnance Survey maps, leverage the EPSG:27700 British National Grid within your BricsCAD geographic location settings, and ensure your IFC4 export settings are configured to carry that vital metadata into the federated environment. By implementing these workflows and checking each exchange, you improve the likelihood that your digital models are correctly positioned, coordinated and usable in the agreed project context.

Frequently Asked Questions

Question: Why is accurate geolocation so critical for UK BIM projects? Short answer: UK AEC projects follow ISO 19650 information management workflows, which rely on a unified coordinate strategy across all disciplines. For Great Britain projects, aligning models to the agreed coordinate reference system, often OSGB36 / British National Grid, helps each discipline place its model in the same project context. The coordinate strategy still needs to be checked through model federation and survey control. 

This consistency reduces clashes, supports reliable model federation and clash detection, and enables integrations like daylight analysis and GIS overlays with local authority data—all of which lower coordination risk and costly on-site errors.

Question: What’s the difference between WCS and UCS in BricsCAD, and how does it affect georeferencing? Short answer: The World Coordinate System (WCS) is the fixed, absolute reference in your drawing; its origin (0,0,0) never moves. The User Coordinate System (UCS) is a flexible, rotating/movable working plane you align to the building grid for easier modelling (e.g., a building at 45° to True North). For reliable georeferencing, build near the WCS origin to avoid floating-point issues from huge map coordinates. Then use BricsCAD’s geolocation tools to map that local model to real-world British National Grid coordinates.

Question: How should I prepare my data before setting geolocation in BricsCAD? Short answer: Start with accurate 2D site control tied to the OS grid.

  • Obtain OS MasterMap or a quality topo survey in Easting/Northing.
  • Select a clear project base point (e.g., grid A/1 intersection, boundary corner, survey peg).
  • Record its Easting (X), Northing (Y), Elevation (Z), and the angle to True North. This establishes the anchor that governs all subsequent 3D modelling and ensures consistent, standards-aligned exports.

Question: How do I set up the British National Grid (EPSG:27700) geolocation in BricsCAD? Short answer:

  • Model close to WCS (0,0,0).
  • Run GEOGRAPHICLOCATION.
  • Choose to enter coordinates manually and input the base point’s Easting, Northing, and Elevation.
  • Select the EPSG:27700 CRS (OSGB36 British National Grid).
  • Pick the exact corresponding point in your drawing (your base point).
  • Define True North relative to the WCS Y-axis. Confirming these steps georeferences the DWG so it can be exported with correct real-world positioning.

Question: Which IFC export settings preserve georeferencing, and how do other platforms (e.g., Revit) use them? Short answer: Use IFC4 where the project requires IFC georeferencing, and make sure a CRS is defined in BricsCAD’s Geographic Location dialog. When a CRS is defined, BricsCAD exports IFC4 geographic location information using IfcMapConversion and IfcProjectedCRS. These store the coordinate reference system and the conversion from local model coordinates to the map coordinate system. Receiving platforms may use IFC georeferencing data if they support it, but behaviour can vary between tools and versions. Always validate the imported or linked IFC against agreed survey control and the federation model before issuing it for coordination.

Question: Why does my IFC appear “floating in space” or slightly misaligned, and how do I fix it? Short answer:

  • Floating/far from origin: The model was drawn at large OS coordinates in WCS (e.g., X≈530000, Y≈180000). Move it back to WCS (0,0,0) and correctly apply GEOGRAPHICLOCATION.
  • Slight offset/rotation: Usually a wrong base point or True North angle. Recheck Easting/Northing/Z and North angle against the BEP; correct any typos and update the BricsCAD geographic location.
  • Missing location metadata: Exported as IFC2x3 or with geolocation turned off. Switch to IFC4 and ensure geographic data is included so viewers can read the CRS and placement.
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