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Modeling and Detailing of Bridges in Revit: Next Level

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Description

The building information modeling (BIM) concept of design and delivery is maturing and ever-greater projects are being developed. This trend is especially noticeable in infrastructure projects, where collaboration, automation, and advantages of 3D design play a critical role. This session will introduce you to the SOFiSTiK Bridge + Infrastructure Modeler (SBIM), a well-established application for Revit that helps you create linear structures. We'll present various functionalities together with project examples from industry leaders. We'll also focus on the modeling of reinforcement and prestressing for concrete bridges. Parametric profile-based design is taken to the next level with enriched information for rebars and tendons. It gives you more flexibility and custom levels of parametrization. Everything is controlled and adjusted with user-friendly input. Rebar and tendon annotations, elevation schedules, and other model-based information can be extracted and shared with other stakeholders.

Key Learnings

  • Learn how to model axis-based linear structures, such as bridges and tunnels, and how to manage the definition of the alignment changes.
  • Learn how to enrich the parametric profile definition with Rebar and Tendon data and create corresponding elements.
  • Learn how to generate reinforcement and prestressing drawings, schedules and share the documentation with other stakeholders.

Speakers

  • Avatar for Jakub Bielski
    Jakub Bielski
    Graduated as Structural Engineer at University of Technology in Cracow, Poland. Involved in various competitions, workshops and conferences to enhance his qualifications, increase the knowledge and find innovative solutions for the design and construction industry. He is currently working as Product Owner in SOFiSTiK AG, German software developer for FEA and BIM solutions. In his current role, he is leading the team to develop SOFiSTiK Bridge + Infrastructure Modeler – Revit application for linear, axis-based design. Additionally, he is helping customers to implement BIM methodology.
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Transcript

JAKUB BIELSKI: Hello, everyone. And welcome to today's class, which is the "Modeling and Detailing of Bridges in Revit-- The Next Level." Before we start, the safe harbor statements-- you know how it's going. And let me introduce myself and the company. And yeah, my name is Jakub Bielski. My background is the structural engineering. And currently, I'm the product owner at SOFiSTiK, which is the software provider. And I am based in Germany, Nuremberg.

My current role is working as a product owner, and I'm taking care of the BIM for infrastructure. And my main focus is, of course, taking care of the development of SOFiSTiK Bridge and Infrastructure Modeler, which is mostly the topic of today's class.

Let's take a look at the agenda. I have introduced myself, but I would like to say, of course, a few words about the company. Then we will go really briefly about the general workflow. Then we will take the focus on the modeling of the linear structures and also the detailing, which is the main topic for today. Then we will take a look at the real bridge example that is currently being developed. And in the end, we will take a look at some of the cloud developments. And we will close with the remarks and some useful links and useful information for you as well.

So SOFiSTiK AG is the German software provider that is focused on the development for the solution for the structural engineers, so basically, the FDA solutions, right, the finite element methods. And we are based in Germany, so our main production offices are in Nuremberg and Munich. But we are spread around the world, so we have quite a wide reach. And we support many different solutions and different workflows.

Our products we can collect in three different groups. The first one, which is the core of the company, is the calculation. It's the structural analysis and design, so basically the finite element methods, where we are really strong at the market. The second part is the reinforcement, both in 2D and 3D. So we are working on AutoCAD and Revit. And the third one, which is connected really good, which, with today's class, is the parametric modeling of linear structures, where we are supporting the BIM in infrastructure concept.

Our philosophy is to provide the solutions that are really fit to your current workflows. So if you are using different solutions, if you are using different softwares, then we are very open. Our philosophy is to being open to your custom workflows. And we know that it's really important for you to put you in the driver's seat. So we develop the solutions, but you are actually deciding-- but you decide how you want to do it and how you want to implement it in your daily work.

Here are some of the reference customers. Definitely, you will recognize some of the names. However, I would like to stress that this is mostly for the Bridge and Infrastructure Modeler. Our clients are-- the list of the clients is much, much bigger when we take a look at the FE solutions as well.

And the small introduction of the SOFiSTiK Bridge and Infrastructure Modeler-- so this is my fourth class already at the Autodesk University. So of course, I will not start from the very beginning. But I would like to stress that it's really important for me to tell you what is the concept behind. So SOFiSTiK Bridge and Infrastructure Modeler is an Autodesk extension. So this is the plugin that is working on Revit. And Revit is, here, the platform, of course.

We are focused on the axis-based infrastructure. And we are using this concept for the modeling and also for drawings. And what is really important is that we provide the tools, which are fully parametric. So it's very dynamic, so everything can be adjusted and prepared according to your requirements. And we support via a variety of structures. And it's not-- even though we have the "bridge" in the name, and today's presentation is about bridges mostly, you can work with the SOFiSTiK Bridge and Infrastructure Modeler on very different projects. So it can be the bridge, it can be a tunnel, it can be a cantilever wall, up to you, up to your concept and idea of the design.

So here I will show some of the reference projects. So the first one is from the FCP. Is the new bridge from Dobersdorf. And here we can see the hollow cast bridge with the rebars in it already. The second one is the pedestrian bridge from Dr. Schütz Ingenieure. And here we can see that really, really nice geometry and really interesting design, something that you don't see every day.

Another example is the subway line, or the subway station, where the bridge modeler was used also for the linear structures, and the Revit was used as a platform for the structural and detailing purposes. Next one is the railway bridge with an underpass. And here we can see that, in one project, we can use the bridge modeler in two ways. So we can use the bridge modeler for the bridge design, and we can use the same tools for the creation of an underpass, of course, with the different profiles and very different parameterization methods. But it's one solution for the different purposes.

And the last one is from Schüssler Plan, where the bridge modeler was used for the creation of the different models to see which one fits the best. And then the best concept was selected for the further detailing and documentation.

So let's now take a look at the general workflow and how it basically works. So of course, we are talking about the linear structures, infrastructure models. And the backbone of all of infrastructure models is an axis. So we create an axis or we import it from [INAUDIBLE] from the different curves and so on. We have a lot of functionalities, how can we create an axis. Then we start building on it.

We create the superstructure based on one profile or multiple profiles or multiple components. And we continue the detailing of the superstructure. Later on, you can place some 3D elements. In the 3D. I mean, the families that are already 3D. So we don't have to create them. We can place them in the model space and parameterize them and control the position and the dimensions of them, such as the pier and abutment and so on. Additionally, we can add the bridge equipment, such as railing, or parapets, curbs, and so on.

When we have the 3D model already prepared, then we can create some drawings. So of course, everything is based on the model. And some of the information are based directly on the axis. So we are reaching back to the axis to take some of the information, for example, for the position of the cross-sections, for the longitudinal sections, and so on. So there is really a lot of really nice functionalities that are dedicated for the infrastructure design and detailing creation of drawings and sheets.

And the last step is the IFC export. Of course, we want to document our design. We want to share the data. And here, Revit helps us with the creation of the IFC models.

And when we are taking a look at the SOFiSTiK Bridge and Infrastructure Modeler, we can recognize two spaces. The first space is the model one. So we are dealing with the components and the data structure. So we have the physical objects. So we have an axis, and we are building on it the deck, the girders, barriers, and so on. And on the right-hand side, we can see so-called an infrabrowser, where we can see all of the data that we have included in our project. And we can see that the hierarchical representation of all of the information. For example, there is an axis. Then the secondary axis is based on it. The superstructure is based on an axis and so on.

The second space is for the documentation. We have also the variety of different functionalities. And based on the axis information and on the model information, we are able to create the dedicated sections, longitudinal sections, also plan views, with some of the axis information, and also create really advanced and really nice dimensions that are working with the curved edges and faces.

So let's now go, after this brief introduction, as a general workflow, let's go now to the modeling of the linear structures, which is the main topic for today. So linear elements-- so the concept behind is to create a path. And we are using an axis information to create such a path, where the profiles will be distributed and parametrized. Later on, we get all of these 2D profiles together, and we can generate the 3D form.

And also, using this 3D form, we can put some parameters in it, some attributes. We can assign the material to it and so on. So actually, we go from the single path, like a-- as a double-curved line of the curve. And to the profiles, we go to the actual physical model in the 3D, in the 3D space.

And how can we do it using the SOFiSTiK Bridge and Infrastructure Modeler? Really simple-- we have already an axis in the model, so we go to the superstructure tool. We select an axis. We select the corresponding profile, like this hollow-- like this hollow core, hollow cast girder. This bridge type we will see quite often today.

Then we can, of course, assign the variable for the height. We decide the start and the end of this component. We can assign the material, for example, concrete, C40. And we hit OK. After the short calculation and the placement of the corresponding families, we can see that we have already the physical model in our project. And we can also see that it's really nicely parameterized with the variable height.

However, this functionality was already presented during the Autodesk University in 2018. And as I said, we started building on it, and we want to make new enhancements. We want to increase the functionalities of the software. And we want to continue on developments based on the profiles. So we start with the simple profile. That is basically the formwork.

Then we can go to the quantification. And here you can see that the points represent the-- the points are representing the edges, and the lines are representing the faces. And then later on, we can get the values of the lengths of the edges and, of course, the area of the faces of the created components.

This was also introduced during the Autodesk University 2021. I will give you the reference to this class at the end of the presentation. And of course, I encourage you to take a look at it and also the other materials. Let's go to the other layers, where, based on the information, which is already embedded in the profile family, and using all of these parameterization methods that we have used, we can also define the position of the tendons for the Tendon. Modeler.

So Tendon Modeler is the functionality that was released this year. And we'll also take a deeper look at these different features and different cases where we can use it and as well at the Rebar Modeler, the functionality which was released last year. And we are also using the profile families for the creation of the rebar shapes. And then using this information, we will be creating the corresponding rebar sets, which are also nicely tailored for the infrastructure design.

So let's start with the Rebar Modeler. The basic concept is that we create the rebar shapes inside the 2D profile family. And then we load this profile family into the project. And then we can operate on it. We can create the rebar sets. We can select any curve or any edge along which this rebar set should be distributed. And then we are making also the collection of all of these rebar sets into the rebar system, where we can control the constraints and all of the parameterization between the rebar sets and also the references. And we can basically manage all of this data inside one rebar system.

Of course, what is really important in here, that we have the total control of the orientation and also the angles of this profile and, as well, of the rebar shapes. So for example, if we want to orient our structure or our rebar sets perpendicular to an axis, we can do it. However, the quite common practice is that all of the rebar sets or all of the rebars in the set are oriented vertically in the Z global-- in the Z global direction. So this is something that you can decide. And also, we have some really nice features for the skewed structures.

So let's take a look at the workflow and some examples, how can we define the rebars in the Rebar Modeler? So firstly, we start with the rebar shape. We are in the profile family. And here we see that, actually, in the corner of the deck of this bridge, one stirrup is missing. So we will use the formwork edges, or simply the profile, as the reference for our shape.

We have to name it somehow. So the shape 001 was already taken, so we just tell that it's a new shape, and it's fine. Right now, we can also define start and end of sets. So basically, we want to modify this rebar shape because the general geometry is taken from the constraints or for the references we have taken in the first step. And later on, we can, of course, modify it and adjust it.

And here, we can see that we have one profile with multiple rebar shapes in it. Later on, we have this profile in the project already, so we go to the Rebar Modeler, we select an axis as the path, and we start creating the rebar sets. We have the first rebar set, which is transverse. We select the corresponding rebar shape. And we of course, have to define where it starts, where it ends, which rebar type should be taken into account, the layout for the spacing, and so on.

And all of this information, we can also preview in the 3D model representation. And we can see how it will be placed or how these rebars will be placed in the model between these two placements. And, yeah, just like that we have already the first rebar set that was created using the rebar shape that we have modeled before, in the first step.

And later on, we will be working further on this system, and we will be adding even more rebar sets. And each rebar set will have its own rebar shape, of course. And right now we'll be just taking a look how we can build this whole system all together so we can basically reinforce the whole structure.

Here I have fast-forwarded a little bit the video because this is the manual work that you have to do. But as you can see, all of these rebar sets already take the settings from the previous rebar set, so from the shape 001. And we just hit OK, and we generate the whole system. Now we can isolate it. And we can see that it fits really nicely in our bridge structure.

Again, we can take a look from the different angle. And here we are. Yeah, the next step, which is really important, is that everything stay parametrized. Right? So we are using the profiles of the family. So we use the same profile to create the superstructure. And we use this profile to create the rebars. So we can change, as I said previously, everything is this parametric-- it's fully parametric model, and everything stays dynamic. So we make an adjustment in the superstructure components.

So for example, we have changed the height from 3 meters to 2 and 1/2. And we can also do the same adjustments for the whole rebar system, which is based on this profile family. And right now we regenerate the rebar system. We regenerate the superstructure component. And we can see that, of course, everything fits, again, perfectly because all of these elements have the source in the same data, which is the profile family.

Now, the second part is the Tendon Modeler. This is the new feature that was released this year, this summer, with the version 2025. And it's also supported for the version 2024. And here we have the similar concepts that we are working on the profile families, but not only, because the modeling of tendons is focused on the really precise geometry. And so we know that the definition of the tendons can be tricky, it can be really advanced because we are using different curves, offsets, radiuses, boundary conditions, and so on. So we are focusing that we give you the solution that you can use for start to end when you want to define your own tendons in the project.

We also know that you are using different source of the data. And what is really important for us is that we give you the solution or we present you at the moment the solution that tackles the real problems in the prestressed structures. And again, of course, we are supporting the BIM design process. So we want to create the 3D elements based on the Revit technology. And we want to make all of this in as user-friendly way as possible, with the nice dialogues, nice visualizations, and so on.

So let's now take a look at the workflow. So of course, everything is based on the axis. We will be creating our basis geometry. We can take the axis as the first geometry and work with the U and V offsets, so in the horizontal and vertical direction. We can select any curve as the basis geometry for our tendon. For example, if you have already some preliminary design and you have already some curves that you can import in the Revit, you can also use it. Or we can work with the adaptive profile family.

Of course, this is the option that we'll be exploring today together. And we'll be checking how we can create the basis geometry out of adaptive profile families, then put some local modifications and curve zones, styles, and attributes to make it a real beam project. And of course, we will be working with the profile families with the selected points.

So let's take a look at how it works in action. So we have, right now, the profile family with some of the points, which are parameterized. And we will be placing the tendon points at the selected reference points. So we simply select the points. We give the name because somehow we need to recognize it later on. It is SDR before. And for the check, if everything works good, we change the parameterization of this profile. We have changed the height and everything as follows. So the tendon points are connected to reference points.

Right now we are in the project space, so we go to the Tendon Create, and we select an axis for the path. And we create the first tendon. So we have the basis geometry. And we select the adaptive family as the source for this first Z geometry that we'll be working on.

We select the points that we have created, or any other that we want, and we also will parameterize this cross-section exactly how we have parameterized our superstructure because then we will know, OK, that these two, say, entities are following the same principles and the same parameterization. Then we start to give some boundary conditions, like the range, because we want to define where the tendon starts and where it ends. So here we are using the placements as the references for the start and end.

And right now, we also give the style because we want to decide, OK, what kind of representation we would like to have. We want to have the direct shape, 3D solid, and hit OK. Right now, we are taking this point from the profile family. We extrude it along an axis. And in this way, we are getting the first geometry as the linear structure placed along an axis.

Later on, we, of course, can keep on working on it. Exactly as with the Rebar Modeler, we want to work further on the Tendon Modeler and also on our prestressing systems. What we can see that what is missing at the moment are the anchorage zones, or simply the local adjustments of the geometry as the anchorage zones and the blisters. We saw already that the blister geometry was there. But actually, the tendon is not responding to this geometry yet.

So we need to define this deformation at the beginning. So it will be 40 centimeters, the offset. We give the transition length. We can also give the radius that should be also taken into account for this transition. We used also the adaptive generic families for the representation of the anchorages. And after the regenerations, we can see that the geometry of the tendons has been changed at the anchorage zone according to our definition, and it fits perfectly, as the blisters.

There are also some other geometrical requirements that should be taken into account, for example, the radiuses. And right now, we will be creating the second tendon in our tendon cluster. So this is really similar to the rebar system. This is also the collection of the different tendons that share similar features and similar geometries. For example, here they share very similar source, the same adaptive family. We just select a different point.

And for this case, or for this example, we'll be taking the point, which is at the web of this bridge. We have one variable that controls the normalized position in the web. So the values go from 0 to 1. So the 1 is the high point, and the 0 is the low point. And we also have one variable that controls the relative position between the tendons to each other.

When we change to the local modifiers, we can see that we have the first geometry of this tendon, which is basically a spline. However, we know that exactly at this point, we would like to have the radius of 16. And the length of the arc of this, the length of the arc should be 10. We change the properties. We hit OK. And we can see that we create a new tendon that is following the given definition.

The next step will be the detailing part. So of course, we are working really hard at our models. We are working really hard at the reinforcement, at the tendons, and so on. And then later on, we want to make a documentation, and we want to make the proper drawings. So here, it will be nice time, a nice point to introduce the SOFiSTiK Reinforcement. So this is also an extension on Revit that is taking care of the 3D reinforcements and the creation of the plans, basically, on the sheets.

This solution is already at the market for some time. But lately, as the SOFiSTiK Bridge and Infrastructure Modeler was developed, this application as well, which is focused on the reinforcement, was developed to support really different types of the models, so not only for buildings but also for the infrastructure projects. And we know that we have to tackle some problems like variable length, angles, and different non-standard rebar shapes that are really different from the building industry.

And we have developed some of the specific tools, like for example, an override of the rebar parameters. We'll be also creating the callouts. And then at the end, we will be creating the bending schedule.

So let's take a look how it's working on another bridge example. So here we have the end zone already reinforced with the bridge modeler. And with the SOFiSTiK Reinforcement, we can create the callout, so the detail of this rebar with the variable lengths, and we get really nice table. We can also create the callout of this T-rod.

However, we can notice that, actually, due to the specific dimensions of the bridge or of this cantilever, some of the parameters are not exactly how we want it to be delivered on the construction site. So we can override these parameters, and we can assign these parameters to the corresponding rebar shape and have the new callout placed. At the end of the day, we can create the schedule, where we can see all of the steel rebars that are used for this project, with all of the parameters.

The next part is the project example. And here, we are taking a look at the project that is currently developed by Avidan Engineers. And this is the really similar project to the ones that we have taken a look at. But this is the totally different cross section. I mean the same type, but of course, each bridge is a little bit different. And here, we'll be taking a look at the prestressed concrete girder hollow cast bridge. And we'll be checking the FE analysis also, of course, with the SOFiSTiK software. And then we'll be going to the 3D BIM modeling, and we'll also take a look at the drawings.

So right now, let's take a look what we have-- what Avidan Engineers have prepared for the bridge analysis. And we'll be taking a look at the bridge system. We'll be checking the advance design of the prestressing cables with the text input. And we'll be also taking a look at the construction stages. And of course, SOFiSTiK is giving so much more possibilities and so much more features that definitely this session is not enough. But I really encourage you, if you are in this industry, to take a look at our solution for the calculation to have the nice reference.

And let's take a look at the video and the short presentation of this project. So we can see the two different bridges, left and right, have already created, and then the new one, which will be, of course, prestressed and will be created between them to increase the width of the bridge. Here we can see the PT file, where we have the text input as the definition of the prestressing, and the linear analysis that has been already calculated. Now we can take a look at the new viewer and all of these nice representations of the finite elements and the construction status.

So as you see, the bridge is growing from left and right and is being cast in place and then prestressed, and then the next section and so on, so the construction stage manager can really help you to tackle all of these different stages and to understand really good the behavior of the bridge and the corresponding-- yeah, and the corresponding face.

So a really nice presentation, and we had a quick look at the FE analysis. And right now, let's take a look at the features or at the tools that were used by the SOFiSTiK Bridge and Infrastructure Modeler to create this model in Revit. So first of all, we select the-- sorry, let's go back. So first of all, we created the main body of the structure, so the superstructure, using the, of course, superstructure tool, where we have extruded the profile along an axis.

And then later on, this profile was enriched with the different components. So for example, the cross member functionality was used to create the blister for the tendon anchorages. And let's take a look how it can be done. So we have already placed some of the blisters inside the project. But of course, we can see that, at the bottom part of the bridge, some of the tendons don't have the blisters yet. So we can duplicate them, the family.

This is the 3D family that is being parameterized to fit the project. And we have duplicates. We can duplicate this family and see that, actually, this fits really good in place for exactly where the tendons' anchorages are.

Let's take a look now at the tendons. We'll see the modeling and also the drawings that we're creating for this project. So first of all, let's see that there is a really large number of the different tendons. This is not a problem, of course, for the SOFiSTiK Bridge and Infrastructure Modeler. We can use the infrabrowser to manage the data to select, isolate, and edit the tendons. We can take a look.

That's, of course, the position of the point indicates the-- the position of the point along an axis indicates the first basis geometry of each tendon. And if we have the whole list of the different geometric sources for each tendon used for this project, we can also take a look at the orthogonal section, where we can view all of the tendons, with the relative distances between them. Here, of course, we can also turn off some of the annotations for the better view. And then we can see how the tendons in the cross-section are behaving when we change the station.

So on the left-hand side, by the player or by the slider, we can see the station. And here we can see also where are our tendons at the given section. And as well, we can take a look at the 3D preview, where we can see the whole cluster of these tendons. So for each span or for each segment, we have defined a separate segment. We have defined the separate cluster, so the management of this data will be easier.

So we have also isolated the left part of the tendons to create the longitudinal view. So we select the axis for the cut plane. And we select all of the elements that should be projected on the cut plane. And right now, we'll be creating the unfolded longitudinal section with the positions of the tendons that later on can be also annotated. We can get the heights of these tendons and so on.

And right now, let's take a look at some of the drawings. So we can have the longitudinal sections for some local detailing. We can make a straight section and, of course, the cross section-- cross sections, where we can present the tendons and also the anchorages and check for the clashes and so on. We have also the top view of the tendons. And bringing all of these views together, we can create really nice plans.

And right now, let's take a look at the rebars that were designed for these projects as well and the drawings that were, later on, derived from the model. So we can see that we have a lot of different components visible already. So we have the superstructure, we have the blister, we have the tendons and all of this stuff. So use the infrabrowser again and isolate only the rebars.

And right now, we can see that we have the whole rebar system with the transversal rebar sets with the longitudinal sets created for this project, and also a lot of different rebar sets that are collected in one rebar system, which is really handy when you want to make some adjustments or you want to basically control the position, control the parameterization of these rebar sets and control, basically, the spacing even or the rebar type. Doing it one by one by one will be pretty time-consuming. And we know that we want to make our job fast and precise.

So let's take a look now at the cross section that was created in this project. And previously, we've been using the SOFiSTiK Reinforcement application to create the bending detail. But in this case, we can also use the bending detail that was introduced lately in Revit to create really nice callouts and the annotations.

So this is for the main part. And please, let me finish with some of the preview of the cloud developments, maybe preview it's-- yeah, maybe it's too much even because maybe I should call it a prototype. However, we know that there is always the next level of the design. And there is also the next level for us to be reached so we can give you the possibilities for the-- and we can give you the solutions for the better design.

And we are looking for these new opportunities also in the cloud development. So we are exploring the Autodesk Platform Services and the possibilities and new APIs. And recently, we have taken part as well in the APS Hackathon, where we have developed so-called SBIM viewer. SBIM stands for SOFiSTiK Bridge and Infrastructure Modeler. This is only the local project, but I'm really excited to show it to you.

And let's take a look how this prototype looks like. So we are logging in, into the ACC, so we can browse the project and check for the data that we have uploaded together with the SOFiSTiK Bridge and Infrastructure Modeler. So let's take a look at the first project. And we can load the model, so everything in the-- it's a typical viewer. However, these models also have some metadata that was exported with the SOFiSTiK Bridge and Infrastructure Modeler.

So, for example, the first functionality is that we can browse this data. So we can take a look at all of these parameters that normally are not there because these are infrastructure-specific and they have to be exported together with the model. We can also create the infrabrowser in cloud. So we can select, we can browse, we can isolate different components of the bridge. And as well, we can manage this data. And the last feature is the so-called dynamic section, where we can use the axis information to create the section that is following an axis. So we want to create the bounding box out of it, but we want to orient this bounding box exactly perpendicular to our axis, of course, perpendicular to the model, so we can assess the design and check for the precision.

And the same functionalities, of course, we can use in the different type of structures, like, for example, this composite bridge with the steel girders and the concrete deck and some railings on it. So we can, of course, take a look at this little bit more complex data system, where we can, again, create the dynamic section, check for the accuracies or inaccuracies, or check for the clashes. And then we can, of course, browse through the model and check for the components Information.

And as I said before, this is just the prototype. This is something that we have been exploring a while ago. But we are really excited about this new technology. And we would like to also know your feedback about it. Let's get in touch and talk about the future of the infrastructure design.

And at the end, some closing remarks-- so as I promised you before, here are some references from other Autodesk University classes regarding the SOFiSTiK Bridge and Infrastructure Modeler. I suggest you to watch them all, if you have interest, of course, in our solutions. And I suggest you to watch it from the first one to the last one because we are building up on the previous developments. And then you can see where the story is going.

Also, some other useful links-- so I would like to invite you to our website, sofistik.com, where you can see a lot of nice information and nice references about our solution, about the projects that have been done with them, and basically get to know us. So if you would like to get in touch with us, please don't hesitate. Here we see some contact information. And we are looking forward to get in touch with you as well.

Thank you for your attention. And I hope you enjoyed it. See you soon.

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Your privacy is important to us and so is an optimal experience. To help us customize information and build applications, we collect data about your use of this site.

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Learn more about the Third Party Services we use and our Privacy Statement.

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These cookies enable us to provide enhanced functionality and personalization. They may be set by us or by third party providers whose services we use to deliver information and experiences tailored to you. If you do not allow these cookies, some or all of these services may not be available for you.

Customize your advertising – permits us to offer targeted advertising to you

These cookies collect data about you based on your activities and interests in order to show you relevant ads and to track effectiveness. By collecting this data, the ads you see will be more tailored to your interests. If you do not allow these cookies, you will experience less targeted advertising.

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THIRD PARTY SERVICES

Learn more about the Third-Party Services we use in each category, and how we use the data we collect from you online.

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Strictly necessary – required for our site to work and to provide services to you

Qualtrics
We use Qualtrics to let you give us feedback via surveys or online forms. You may be randomly selected to participate in a survey, or you can actively decide to give us feedback. We collect data to better understand what actions you took before filling out a survey. This helps us troubleshoot issues you may have experienced. Qualtrics Privacy Policy
Akamai mPulse
We use Akamai mPulse to collect data about your behavior on our sites. This may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, your IP address or device ID, and your Autodesk ID. We use this data to measure our site performance and evaluate the ease of your online experience, so we can enhance our features. We also use advanced analytics methods to optimize your experience with email, customer support, and sales. Akamai mPulse Privacy Policy
Digital River
We use Digital River to collect data about your behavior on our sites. This may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, your IP address or device ID, and your Autodesk ID. We use this data to measure our site performance and evaluate the ease of your online experience, so we can enhance our features. We also use advanced analytics methods to optimize your experience with email, customer support, and sales. Digital River Privacy Policy
Dynatrace
We use Dynatrace to collect data about your behavior on our sites. This may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, your IP address or device ID, and your Autodesk ID. We use this data to measure our site performance and evaluate the ease of your online experience, so we can enhance our features. We also use advanced analytics methods to optimize your experience with email, customer support, and sales. Dynatrace Privacy Policy
Khoros
We use Khoros to collect data about your behavior on our sites. This may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, your IP address or device ID, and your Autodesk ID. We use this data to measure our site performance and evaluate the ease of your online experience, so we can enhance our features. We also use advanced analytics methods to optimize your experience with email, customer support, and sales. Khoros Privacy Policy
Launch Darkly
We use Launch Darkly to collect data about your behavior on our sites. This may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, your IP address or device ID, and your Autodesk ID. We use this data to measure our site performance and evaluate the ease of your online experience, so we can enhance our features. We also use advanced analytics methods to optimize your experience with email, customer support, and sales. Launch Darkly Privacy Policy
New Relic
We use New Relic to collect data about your behavior on our sites. This may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, your IP address or device ID, and your Autodesk ID. We use this data to measure our site performance and evaluate the ease of your online experience, so we can enhance our features. We also use advanced analytics methods to optimize your experience with email, customer support, and sales. New Relic Privacy Policy
Salesforce Live Agent
We use Salesforce Live Agent to collect data about your behavior on our sites. This may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, your IP address or device ID, and your Autodesk ID. We use this data to measure our site performance and evaluate the ease of your online experience, so we can enhance our features. We also use advanced analytics methods to optimize your experience with email, customer support, and sales. Salesforce Live Agent Privacy Policy
Wistia
We use Wistia to collect data about your behavior on our sites. This may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, your IP address or device ID, and your Autodesk ID. We use this data to measure our site performance and evaluate the ease of your online experience, so we can enhance our features. We also use advanced analytics methods to optimize your experience with email, customer support, and sales. Wistia Privacy Policy
Tealium
We use Tealium to collect data about your behavior on our sites. This may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. We use this data to measure our site performance and evaluate the ease of your online experience, so we can enhance our features. We also use advanced analytics methods to optimize your experience with email, customer support, and sales. Tealium Privacy Policy
Upsellit
We use Upsellit to collect data about your behavior on our sites. This may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. We use this data to measure our site performance and evaluate the ease of your online experience, so we can enhance our features. We also use advanced analytics methods to optimize your experience with email, customer support, and sales. Upsellit Privacy Policy
CJ Affiliates
We use CJ Affiliates to collect data about your behavior on our sites. This may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. We use this data to measure our site performance and evaluate the ease of your online experience, so we can enhance our features. We also use advanced analytics methods to optimize your experience with email, customer support, and sales. CJ Affiliates Privacy Policy
Commission Factory
We use Commission Factory to collect data about your behavior on our sites. This may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. We use this data to measure our site performance and evaluate the ease of your online experience, so we can enhance our features. We also use advanced analytics methods to optimize your experience with email, customer support, and sales. Commission Factory Privacy Policy
Google Analytics (Strictly Necessary)
We use Google Analytics (Strictly Necessary) to collect data about your behavior on our sites. This may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, your IP address or device ID, and your Autodesk ID. We use this data to measure our site performance and evaluate the ease of your online experience, so we can enhance our features. We also use advanced analytics methods to optimize your experience with email, customer support, and sales. Google Analytics (Strictly Necessary) Privacy Policy
Typepad Stats
We use Typepad Stats to collect data about your behaviour on our sites. This may include pages you’ve visited. We use this data to measure our site performance and evaluate the ease of your online experience, so we can enhance our platform to provide the most relevant content. This allows us to enhance your overall user experience. Typepad Stats Privacy Policy
Geo Targetly
We use Geo Targetly to direct website visitors to the most appropriate web page and/or serve tailored content based on their location. Geo Targetly uses the IP address of a website visitor to determine the approximate location of the visitor’s device. This helps ensure that the visitor views content in their (most likely) local language.Geo Targetly Privacy Policy
SpeedCurve
We use SpeedCurve to monitor and measure the performance of your website experience by measuring web page load times as well as the responsiveness of subsequent elements such as images, scripts, and text.SpeedCurve Privacy Policy
Qualified
Qualified is the Autodesk Live Chat agent platform. This platform provides services to allow our customers to communicate in real-time with Autodesk support. We may collect unique ID for specific browser sessions during a chat. Qualified Privacy Policy

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Improve your experience – allows us to show you what is relevant to you

Google Optimize
We use Google Optimize to test new features on our sites and customize your experience of these features. To do this, we collect behavioral data while you’re on our sites. This data may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, your IP address or device ID, your Autodesk ID, and others. You may experience a different version of our sites based on feature testing, or view personalized content based on your visitor attributes. Google Optimize Privacy Policy
ClickTale
We use ClickTale to better understand where you may encounter difficulties with our sites. We use session recording to help us see how you interact with our sites, including any elements on our pages. Your Personally Identifiable Information is masked and is not collected. ClickTale Privacy Policy
OneSignal
We use OneSignal to deploy digital advertising on sites supported by OneSignal. Ads are based on both OneSignal data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that OneSignal has collected from you. We use the data that we provide to OneSignal to better customize your digital advertising experience and present you with more relevant ads. OneSignal Privacy Policy
Optimizely
We use Optimizely to test new features on our sites and customize your experience of these features. To do this, we collect behavioral data while you’re on our sites. This data may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, your IP address or device ID, your Autodesk ID, and others. You may experience a different version of our sites based on feature testing, or view personalized content based on your visitor attributes. Optimizely Privacy Policy
Amplitude
We use Amplitude to test new features on our sites and customize your experience of these features. To do this, we collect behavioral data while you’re on our sites. This data may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, your IP address or device ID, your Autodesk ID, and others. You may experience a different version of our sites based on feature testing, or view personalized content based on your visitor attributes. Amplitude Privacy Policy
Snowplow
We use Snowplow to collect data about your behavior on our sites. This may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, your IP address or device ID, and your Autodesk ID. We use this data to measure our site performance and evaluate the ease of your online experience, so we can enhance our features. We also use advanced analytics methods to optimize your experience with email, customer support, and sales. Snowplow Privacy Policy
UserVoice
We use UserVoice to collect data about your behaviour on our sites. This may include pages you’ve visited. We use this data to measure our site performance and evaluate the ease of your online experience, so we can enhance our platform to provide the most relevant content. This allows us to enhance your overall user experience. UserVoice Privacy Policy
Clearbit
Clearbit allows real-time data enrichment to provide a personalized and relevant experience to our customers. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID.Clearbit Privacy Policy
YouTube
YouTube is a video sharing platform which allows users to view and share embedded videos on our websites. YouTube provides viewership metrics on video performance. YouTube Privacy Policy

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Customize your advertising – permits us to offer targeted advertising to you

Adobe Analytics
We use Adobe Analytics to collect data about your behavior on our sites. This may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, your IP address or device ID, and your Autodesk ID. We use this data to measure our site performance and evaluate the ease of your online experience, so we can enhance our features. We also use advanced analytics methods to optimize your experience with email, customer support, and sales. Adobe Analytics Privacy Policy
Google Analytics (Web Analytics)
We use Google Analytics (Web Analytics) to collect data about your behavior on our sites. This may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. We use this data to measure our site performance and evaluate the ease of your online experience, so we can enhance our features. We also use advanced analytics methods to optimize your experience with email, customer support, and sales. Google Analytics (Web Analytics) Privacy Policy
AdWords
We use AdWords to deploy digital advertising on sites supported by AdWords. Ads are based on both AdWords data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that AdWords has collected from you. We use the data that we provide to AdWords to better customize your digital advertising experience and present you with more relevant ads. AdWords Privacy Policy
Marketo
We use Marketo to send you more timely and relevant email content. To do this, we collect data about your online behavior and your interaction with the emails we send. Data collected may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, your IP address or device ID, email open rates, links clicked, and others. We may combine this data with data collected from other sources to offer you improved sales or customer service experiences, as well as more relevant content based on advanced analytics processing. Marketo Privacy Policy
Doubleclick
We use Doubleclick to deploy digital advertising on sites supported by Doubleclick. Ads are based on both Doubleclick data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that Doubleclick has collected from you. We use the data that we provide to Doubleclick to better customize your digital advertising experience and present you with more relevant ads. Doubleclick Privacy Policy
HubSpot
We use HubSpot to send you more timely and relevant email content. To do this, we collect data about your online behavior and your interaction with the emails we send. Data collected may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, your IP address or device ID, email open rates, links clicked, and others. HubSpot Privacy Policy
Twitter
We use Twitter to deploy digital advertising on sites supported by Twitter. Ads are based on both Twitter data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that Twitter has collected from you. We use the data that we provide to Twitter to better customize your digital advertising experience and present you with more relevant ads. Twitter Privacy Policy
Facebook
We use Facebook to deploy digital advertising on sites supported by Facebook. Ads are based on both Facebook data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that Facebook has collected from you. We use the data that we provide to Facebook to better customize your digital advertising experience and present you with more relevant ads. Facebook Privacy Policy
LinkedIn
We use LinkedIn to deploy digital advertising on sites supported by LinkedIn. Ads are based on both LinkedIn data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that LinkedIn has collected from you. We use the data that we provide to LinkedIn to better customize your digital advertising experience and present you with more relevant ads. LinkedIn Privacy Policy
Yahoo! Japan
We use Yahoo! Japan to deploy digital advertising on sites supported by Yahoo! Japan. Ads are based on both Yahoo! Japan data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that Yahoo! Japan has collected from you. We use the data that we provide to Yahoo! Japan to better customize your digital advertising experience and present you with more relevant ads. Yahoo! Japan Privacy Policy
Naver
We use Naver to deploy digital advertising on sites supported by Naver. Ads are based on both Naver data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that Naver has collected from you. We use the data that we provide to Naver to better customize your digital advertising experience and present you with more relevant ads. Naver Privacy Policy
Quantcast
We use Quantcast to deploy digital advertising on sites supported by Quantcast. Ads are based on both Quantcast data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that Quantcast has collected from you. We use the data that we provide to Quantcast to better customize your digital advertising experience and present you with more relevant ads. Quantcast Privacy Policy
Call Tracking
We use Call Tracking to provide customized phone numbers for our campaigns. This gives you faster access to our agents and helps us more accurately evaluate our performance. We may collect data about your behavior on our sites based on the phone number provided. Call Tracking Privacy Policy
Wunderkind
We use Wunderkind to deploy digital advertising on sites supported by Wunderkind. Ads are based on both Wunderkind data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that Wunderkind has collected from you. We use the data that we provide to Wunderkind to better customize your digital advertising experience and present you with more relevant ads. Wunderkind Privacy Policy
ADC Media
We use ADC Media to deploy digital advertising on sites supported by ADC Media. Ads are based on both ADC Media data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that ADC Media has collected from you. We use the data that we provide to ADC Media to better customize your digital advertising experience and present you with more relevant ads. ADC Media Privacy Policy
AgrantSEM
We use AgrantSEM to deploy digital advertising on sites supported by AgrantSEM. Ads are based on both AgrantSEM data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that AgrantSEM has collected from you. We use the data that we provide to AgrantSEM to better customize your digital advertising experience and present you with more relevant ads. AgrantSEM Privacy Policy
Bidtellect
We use Bidtellect to deploy digital advertising on sites supported by Bidtellect. Ads are based on both Bidtellect data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that Bidtellect has collected from you. We use the data that we provide to Bidtellect to better customize your digital advertising experience and present you with more relevant ads. Bidtellect Privacy Policy
Bing
We use Bing to deploy digital advertising on sites supported by Bing. Ads are based on both Bing data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that Bing has collected from you. We use the data that we provide to Bing to better customize your digital advertising experience and present you with more relevant ads. Bing Privacy Policy
G2Crowd
We use G2Crowd to deploy digital advertising on sites supported by G2Crowd. Ads are based on both G2Crowd data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that G2Crowd has collected from you. We use the data that we provide to G2Crowd to better customize your digital advertising experience and present you with more relevant ads. G2Crowd Privacy Policy
NMPI Display
We use NMPI Display to deploy digital advertising on sites supported by NMPI Display. Ads are based on both NMPI Display data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that NMPI Display has collected from you. We use the data that we provide to NMPI Display to better customize your digital advertising experience and present you with more relevant ads. NMPI Display Privacy Policy
VK
We use VK to deploy digital advertising on sites supported by VK. Ads are based on both VK data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that VK has collected from you. We use the data that we provide to VK to better customize your digital advertising experience and present you with more relevant ads. VK Privacy Policy
Adobe Target
We use Adobe Target to test new features on our sites and customize your experience of these features. To do this, we collect behavioral data while you’re on our sites. This data may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, your IP address or device ID, your Autodesk ID, and others. You may experience a different version of our sites based on feature testing, or view personalized content based on your visitor attributes. Adobe Target Privacy Policy
Google Analytics (Advertising)
We use Google Analytics (Advertising) to deploy digital advertising on sites supported by Google Analytics (Advertising). Ads are based on both Google Analytics (Advertising) data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that Google Analytics (Advertising) has collected from you. We use the data that we provide to Google Analytics (Advertising) to better customize your digital advertising experience and present you with more relevant ads. Google Analytics (Advertising) Privacy Policy
Trendkite
We use Trendkite to deploy digital advertising on sites supported by Trendkite. Ads are based on both Trendkite data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that Trendkite has collected from you. We use the data that we provide to Trendkite to better customize your digital advertising experience and present you with more relevant ads. Trendkite Privacy Policy
Hotjar
We use Hotjar to deploy digital advertising on sites supported by Hotjar. Ads are based on both Hotjar data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that Hotjar has collected from you. We use the data that we provide to Hotjar to better customize your digital advertising experience and present you with more relevant ads. Hotjar Privacy Policy
6 Sense
We use 6 Sense to deploy digital advertising on sites supported by 6 Sense. Ads are based on both 6 Sense data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that 6 Sense has collected from you. We use the data that we provide to 6 Sense to better customize your digital advertising experience and present you with more relevant ads. 6 Sense Privacy Policy
Terminus
We use Terminus to deploy digital advertising on sites supported by Terminus. Ads are based on both Terminus data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that Terminus has collected from you. We use the data that we provide to Terminus to better customize your digital advertising experience and present you with more relevant ads. Terminus Privacy Policy
StackAdapt
We use StackAdapt to deploy digital advertising on sites supported by StackAdapt. Ads are based on both StackAdapt data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that StackAdapt has collected from you. We use the data that we provide to StackAdapt to better customize your digital advertising experience and present you with more relevant ads. StackAdapt Privacy Policy
The Trade Desk
We use The Trade Desk to deploy digital advertising on sites supported by The Trade Desk. Ads are based on both The Trade Desk data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that The Trade Desk has collected from you. We use the data that we provide to The Trade Desk to better customize your digital advertising experience and present you with more relevant ads. The Trade Desk Privacy Policy
RollWorks
We use RollWorks to deploy digital advertising on sites supported by RollWorks. Ads are based on both RollWorks data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that RollWorks has collected from you. We use the data that we provide to RollWorks to better customize your digital advertising experience and present you with more relevant ads. RollWorks Privacy Policy

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We care about your privacy. The data we collect helps us understand how you use our products, what information you might be interested in, and what we can improve to make your engagement with Autodesk more rewarding.

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