2023: Robot to Revit integration

I Understand that having a steel structure in mind,  if the analytical model is created in robot, the following workflow should be used:

1. Creation of analytical model in Robot.

2. Creation of steel connections in Robot.

3. Creation of concrete elements in Robot.

2. The analytical model is sent to Revit.

3. The physical model (steel and concrete elements) is MANUALLY created in Revit, using the analytical model as a background (no automation available).

4. Each steel connection is  created in Revit from scratch. Each steel connection tab must be opened in Robot and be visually copied in order to be created it in Revit.

5. The concrete reinforcement for every concrete element is created in Revit from scratch. Each reinforcement tab must be opened in Robot and be visually copied in order to be created in Revit.

7. Foundation elements are also created from scratch, with zero information transferred from Robot.

Is the above description correct?

Dear @pawelpiechnik.

From your answer I understand that the workflow that was described above is correct and it is the only way to work for an undetermined period of time.

I also understand that there are no plans for transfer of steel connections (and reinforcement) between robot and revit, as I could find no reference in the roadmap.

As a structural engineer working mainly on steel structures, I think that  the evolution of this software package has taken two steps behind. I'd like to point out that having to model all of the steel connections twice in the era of BIM is driving me crazy. Up until 2022, at least some of the connections could be modelled just once.

It is discouraging that the he competitive software packages offer no  alternatives that I'm aware off. No mater the combination of software, steel connections must be modeled twice.

I'm starting to wonder if software companies have any meaningful interaction with everyday practicing engineers who just need to deliver.

Regards

Alex,

Apologies for not being clear. I was referring to your original question about the model automation.

Let me take the other topic now. I’ll try to connect some dots, so please assess whether this will be helpful and relevant to your needs or not.

I’m reading that you need to use Robot and Revit for their complementarity and to end up in Revit with a construction model and documentation. Likely to connect design outcomes to detailing (or maybe also fabrication coordination). 

The simplest recommendation to start from is that if we need to end up with Revit, it’s better to start with Revit. Here is the thought process for Analysis and building layout design intent:

• Start with Revit with a construction-oriented model. Model based on your input data, whether this is a model from an architect, dwg, dxf, or a pdf file you can snap or reference to.
• From the physical one, create analytical model automatically.  The opposite way would be later possible too, but it’s naturally easier to create an accurate analytical model from physical for analysis than an accurate and constructable physical model from an analytical simplification.
• Export to Robot, at this moment to add loads/combinations etc, to run the analysis.
• Now, bidirectional iterations would work for analytical topology and properties. To update the physical constructable model automatically however, this feature that I pointed out on the Roadmap will be needed.

For the code design:

• For steel connections, the recommended new workflow is to automate connections modeling in Revit based on a library of standards (AISC, DSTV, BCSA/Green Book) or on custom connection. It is however a one-time effort to create your library of predesigned connections, so that it could be later reused across projects. Please see here. Predesign can happen in Revit with e.g. Idea Statica which is very popular among Robot users, as it covers both EC3 and AISC (or with Robot, but then you would need to recreating in Revit to save into a library). As you said, there is no connections transfer from Robot to Revit. The point is however that from Revit you can transfer connections to Steel Detailing & Fabrication software and this is why we see Revit as a source of truth for connections.
• For rebar, the only good transfer we ever had for rebar is required reinforcement. So here there isn’t yet any good recommendation for a Robot workflow, as you said, for provided reinforcement. Our partners do provide Concrete Design tools working directly on top of Revit, which you may want to consider. And again, due to the benefit of quantifiable, construction clash free, and detailed shop deliverables, Revit should be the hub for rebar model. Subject to expected improvements regarding the interoperability, indeed.

It’s not yet where we want to be, but I believe with that, you have more information on  the direction that is being taken.

regards

Pawel Piechnik
Director of Product Management, Structural Product Line

I can't believe this, how is it possible that when exporting the Robot model to Revit the physical model is not created?
My heart has been completely broken. It has been a tragedy for the work in BIM in our office of structural projects, we are shocked.

Gracias!!!

Thank you for the great answer. 

I just have one follow up, if I may please. What is the reason Robot and Revit don't have a better integration? Specifically if I design in Robot, I would have thought it would be a matter of a click to send the rebars to Revit and only worry about the presentation. With this new work-flow, it is obvious to me that you design in Robot, but have to redesign the rebars in Revit again. So I am wondering if that will change or this gap will stay between these two programs. 

Th reason I am asking this is because there are many other competitive programs that don't have this issue. For example with SOFiSTiK, you can design in Revit, send it to SOFiSTiK, and when it comes back the automation is so easy that you only worry about presentation and not remodeling of rebars and so on. 

Appreciate your answer. 

HRH

Robot, by its nature - being an Analysis tool, is working with  Analytical Model and its physical model representation (derived from analytical) is not very accurate as compared to "to build" construction model, unlike how it works in Revit where both physical and analytical are represented. Therefore, rebar created in Robot, when transferred to Revit physical model was not very accurate and therefore perceived as low quality workflow and the feedback we were getting was that it was easier to create it from scratch in Revit rather than correcting. We need to find a better way to make it transferred if possible, as we agree that rebar automation from design codes is important.

The other approach that which users do embrace is to model rebar  (through design codes – see Graitec’ s BIM designer, Sofistik’ s rebar generator) directly in Revit relying in required reinforcement areas transferred from Analysis tools. We see this as the future of code design – consume analysis results and work with detailed model directly where physical BIM representation is.

regards

Pawel Piechnik
Director of Product Management, Structural Product Line

Excuse me, how do you download Revit 2023.1, it doesn't appears :c?

Thanks youuu!!!✨