IFC and Infrastructure Design

In the May/June issue of the AEC magazine, there were some excellent articles about IFC. Take a look at it here if you haven't already: https://issuu.com/x3dmedia/docs/aec mayjune22/66

 

The IFC schema is a vast subject. However, there are certain crucial topics to cover, especially for those who don’t design buildings. When it comes to IFC, Infrastructure (facilities and assets other than buildings) has been the poor cousin to our colleagues working in vertical design. However, we shouldn’t hold buildingSmart responsible because they have developed an open file format that has achieved enormous success. It has made it possible to transfer models accurately and with accompanying information and is already widely used. We should acknowledge that as Infrastructure engineers, we to a while to recognise the advantages of this solution, and that we might have received better service if we had shouted earlier and louder. However, it is the past, and right now we are enjoying the fruits of some excellent work that buildingSmart has done in the background to bring us infrastructure-specific content in the IFC schema.

What has changed? 

The definition of IFC Alignment in IFC 4.1, which was a crucial first step in defining the linear referencing system utilised for our transportation and other linear route designs, is built upon in the projected release of IFC 4.3. It offers the framework on which we can “hang” the plans for our pavement, rail and bridge designs upon. We now have definitions for IFC Rail, IFC Road, IFC Bridge and IFC Ports & Waterways in IFC 4.3; tunnels will be coming in the future.

 

In addition of IfcFacility as the top entity in the hierarchy, with IfcBuilding sharing the same level as IfcRoad and IfcRailway, is another minor but significant modification (alongside other entities). With this framework, a multi-discipline asset model is now more accurate represented, and it will be easier to federation multi-disciplinary models for larger projects where both horizontal and vertical designs co-exist. 

What benefits will IFC 4.3 provide? 

In the long run, the addition of infrastructure entities in IFC 4.3 will allow us to start investigating open collaboration between various technologies and fields.

 

Even though we may federate models from several disciplines with the help of technologies like Navisworks, we frequently exchange files in proprietary formats. Even if we may compare designs and their interfaces, in order to make adjustments, we must return to our design programme to make changes, frequently without the advantage of being able to import and use all of the models satisfactorily. Of course, there are ways to connect models; for instance, we can link a Civil 3D model to Revit, but the outcome is frequently less than ideal. I am looking forward to the day when we can link an infrastructure IFC file into Revit and be able to interrogate data and objects regardless of the programme that created them. Perhaps design consultants will be allowed to use whichever tools they have available, as long as they support the most recent version of IFC and collaborate well with other design teams.  

 

Large projects are making commitments to sustainability goals, and the data needed to crunch the numbers will inevitably come from the digital models’ data. Our ability to provide all models, regardless of their source, in the same machine-readable format, will allow the development of streamlined tools to extract and collate this information efficiently. 

IFC and Autodesk Civil 3D 

As an experienced Civil 3D user, I am very curious in how we can apply IFC in practice. Civil 3D’s most recent versions support IFC2x3, 4 and 4x1. The IFC 4.3 export tool Autodesk developed is currently undergoing Alpha testing, and the initial results are promising. However, as is typically the case, software that is still in development rarely has a complete set of features, which poses a number of issues. How much can it be customised? Since we don't just build roads, we also need to be able to assign properties and types, as well as employ corridor models for various types of assets, like retaining walls or swales.

Having recent conversations with clients who require COBie data from a Civil 3D model, IFC export would be one way that we could facilitate this, which would let us generate COBie from the IFC file. Naturally, for us to be able to achieve this, we will need to be able to assign suitable data structures.

 

The way we use Civil 3D differs greatly from how many other design software, like Revit, are used. Large projects designed in Civil 3D require us to split our designs among numerous model files, and objects like corridors, may be linked across those files. I anticipate that one of the difficulties we will have to solve is making sure we don't duplicate information in IFC exports. The ideal export feature would be able to comprehend the entire Civil 3D project, rather than just individual files.

 

How we handle local and Geospatial coordinate systems is another topic that needs some consideration. In a perfect world, we would be able to specify both in Civil 3D, allowing the resulting IFC file to be linked or imported into other programmes that heavily rely on local grid systems, like the majority of programmes used for building design.

 

We can't now use IFC 4.3 since software providers are still working on developing and testing new import and export tools, so we will need to be patient. However, I would advise Civil 3D users to look into and play with with the formats that are currently supported. With the available tools, we can export objects from Civil 3D, but this does mean that most of the exported objects are IfcBuildingElementProxy entities and do not have defined types. Although this is not ideal, giving these objects the appropriate Property Data will give us the definition we require. Linking an IFC file created by Civil 3D into Revit can produce some effective effects, such as adding site drainage designs. We have talked with several of our clients about this subject, and we can offer solutions that will make the switch to collaborative working on BIM projects much simpler. For example, Symetri's Naviate tools for Civil 3D can offer an automated solution for collecting information from Civil 3D and AutoCAD and adding it to relevant Property Data Sets given to objects. Numerous properties, including chainages, sizes, lengths, and volumes can be automatically allocated and subsequently updated to account for changes made to the objects or their linked alignments or corridors.

 

Regardless of where you are in your BIM journey, we are always delighted to talk about workflows and new concepts. I have always found our customer interactions and discussions enlightening over the years, and my colleagues and I look forward to being challenged with fresh issues and ideas. I’m hopeful that some of you will accept the challenge to make use of IFC as an OpenBIM format on your projects, and maybe together we can define some truly fantastic advantages.  

 

Would you like to find out more about Civil 3D? At Symetri, we provide a wide range of Civil 3D training courses to help you improve project delivery, maintain more consistent data and processes, and respond faster to project changes. For more information, please contact us on 0345 370 1444 or info@symetri.co.uk.

 

Further information: 

IFC Overview: 

http://ifc43-docs.standards.buildingsmart.org/ 

IFC 4.3 Schema Definition: 

https://standards.buildingsmart.org/IFC/DEV/IFC4_3/RC4-voting/HTML/