• Revit
  • Civil 3D

Coordination and collaboration for civil engineers

When architects, structural engineers, MEP engineers, and civil engineers all collaborate on a project, they must share information about the design, so that all teams are working with the same assumptions. In this module, you learn better ways to collaborate to be more efficient with BIM.


Course overview

When architects, structural engineers, MEP engineers, and civil engineers all collaborate on a project, they must share information about the design, so that all teams are working with the same assumptions. In this module, you learn better ways to collaborate to be more efficient with BIM.

Before you start

  • Please make sure you have the Revit and Civil 3D software loaded and access to BIM360.
  • If you have technical difficulties, please reach out to product support

Course outline

15 min.

Share Civil 3D surfaces with Revit using BIM 360

Sharing design models between the architect and civil engineer helps reduce rework and improves collaboration. Use BIM 360 to share surface data after setting the geospacial coordinates for the project.

Sharing design models between the architect and civil engineer helps reduce rework and improves collaboration. Use BIM 360 to share surface data after setting the geospacial coordinates for the project.

This module takes approximately 15 minutes to complete. By the end of the module, you should be able to:

  • Set the geospacial coordinates in both Civil 3D and Revit to ensure the models line up
  • Share the Civil 3D surface with Revit through the cloud using BIM 360


10 min.

Reduce rework by importing the building from the architect into Civil 3D

Importing the Revit Building into Civil 3D helps you ensure everything fits together on the site. In this module, you learn how to take advantage of work already done by the architect, saving you time in recreating their work.

Importing the Revit Building into Civil 3D helps you ensure everything fits together on the site. In this module, you learn how to take advantage of work already done by the architect, saving you time in recreating their work.

This module takes approximately 10 minutes to complete. By the end of the module, you should be able to:

  • Select the appropriate method for bringing an architectural model into Civil 3D.


15 min.

Mark up a road project in BIM 360

Coordinating infrastructure projects in the cloud helps reduce error and rework. In this module, learn how to upload your design into the Document Management module of BIM 360. Then, use markup tools to communicate required design changes.

Coordinating infrastructure projects in the cloud helps reduce error and rework. In this module, learn how to upload your design into the Document Management module of BIM 360. Then, use markup tools to communicate required design changes.

This module takes approximately 15 minutes to complete. By the end of the module, you should be able to:

  • Upload files to BIM 360
  • Review and markup files in BIM 360


10 min.

Gravity pipe network interference check

After designing your drainage models, it is important to check for clashes between all known utility models. Catching and addressing clashes at the user level avoids the clashes at higher levels (discipline and company collaboration, for instance) reducing rework and meeting time. In this module, you will identify how to select the networks for interference checking. Next, you will define the criteria in which an interference happens. Lastly, you navigate to each interference.

After designing your drainage models, it is important to check for clashes between all known utility models. Catching and addressing clashes at the user level avoids the clashes at higher levels (discipline and company collaboration, for instance) reducing rework and meeting time. In this module, you will identify how to select the networks for interference checking. Next, you will define the criteria in which an interference happens. Lastly, you navigate to each interference.

This module takes approximately 10 minutes to complete. By the end of the module, you should be able to: 

  • Select the pipe networks 
  • Set the interference reporting criteria 
  • Navigate and correct the interferences 

About the author

This module was created by Stacey Morykin.

Before you start

  • Please make sure you have the Civil 3D software loaded.
  • If you have technical difficulties, please reach out to product support


25 min.

Migrating Civil 3D drawings and data shortcuts to BIM 360

Migrating Civil 3D files into BIM 360 makes external references and data references available for everyone to use in the cloud. Learn how to upload Civil 3D drawing files and sheet set files for better collaboration across the team.

Migrating Civil 3D files into BIM 360 makes external references and data references available for everyone to use in the cloud. Learn how to upload Civil 3D drawing files and sheet set files for better collaboration across the team.

This module takes approximately 25 minutes to complete. By the end, you should be able to:

  • Migrate Civil 3D external reference files and data shortcuts to BIM 360.
  • Manage external references and data references in BIM 360.

About the author

This module was created by Sean Hulbert. Sean is a registered professional engineer in the state of Oregon, and a Technical Support Specialist at Autodesk, Inc., supporting AutoCAD Civil 3D, Hydrology tools, and InfraWorks software. 

Before you start

  • Please make sure you have the Civil 3D software loaded and access to BIM 360.
  • If you have technical difficulties, please reach out to product support