Difference between revisions of "OpenRoads Designer"
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===[[#Survey Files| Survey Files]]=== | ===[[#Survey Files| Survey Files]]=== | ||
− | + | Section 1 shows how to use the existing information from the survey RID files. | |
[https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=a6d80641-077c-4120-b7c5-4d1f0ef07f62&fileName=%221.01_TerrainModelDisplay.mp4%22 1.01 Terrain Model Display] | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=a6d80641-077c-4120-b7c5-4d1f0ef07f62&fileName=%221.01_TerrainModelDisplay.mp4%22 1.01 Terrain Model Display] | ||
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===[[#Horizontal Geometry| Horizontal Geometry]]=== | ===[[#Horizontal Geometry| Horizontal Geometry]]=== | ||
− | + | Section 2 covers horizontal geometry. | |
[https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=9d706e77-c529-4a69-9f99-625359b9a5ed&fileName=%222.01%20Importing%20and%20Annotating%20Geometry.mp4%22 2.01 Importing and Annotating Geometry] | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=9d706e77-c529-4a69-9f99-625359b9a5ed&fileName=%222.01%20Importing%20and%20Annotating%20Geometry.mp4%22 2.01 Importing and Annotating Geometry] | ||
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===[[#Vertical Geometry| Vertical Geometry]]=== | ===[[#Vertical Geometry| Vertical Geometry]]=== | ||
− | + | Section 3 covers vertical geometry. | |
[https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=f3468755-2272-4304-bbf1-da2096698028&fileName=%223.01%20Designing%20the%20SB%20Profile.mp4%22 3.01 Designing the SB Profile] | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=f3468755-2272-4304-bbf1-da2096698028&fileName=%223.01%20Designing%20the%20SB%20Profile.mp4%22 3.01 Designing the SB Profile] | ||
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[https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=51d09be7-4935-48a3-bb4f-7809179781b4&fileName=%223.04%20Using%20the%20Table%20Editor.mp4%22 3.04 Using the Table Editor] | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=51d09be7-4935-48a3-bb4f-7809179781b4&fileName=%223.04%20Using%20the%20Table%20Editor.mp4%22 3.04 Using the Table Editor] | ||
+ | |||
+ | ===[[#Corridor Modeling| Corridor Modeling]]=== | ||
+ | Section 4 covers Corridor Modeling | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=6ec6a37e-a929-4333-90a7-b06cf7630284&fileName=%224.0%20Understanding%20the%20Corridor.mp4%22 4.0 Understanding the Corridor] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=c182a0e2-c465-437e-a3df-352bd9d53044&fileName=%224.01%20Creating%20the%20Backbone%20Corridors.mp4%22 4.01 Creating the Backbone Corridors] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=6690521e-2dde-4fda-aa97-476835032c8c&fileName=%224.02%20Viewing%20the%20Corridors.mp4%22 4.02 Viewing the Corridors] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=b8260890-7abe-4756-b38a-7c6652199ef9&fileName=%224.03%20Adding%20the%20Right%20Side%20Corridors.mp4%22 4.03 Adding the Right Side Corridors] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=02add3a4-7439-48f9-8906-8da81734a30b&fileName=%224.04%20Adding%20the%20Median%20Corridor.mp4%22 4.04 Adding the Median Corridor] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=5e54e37d-f855-4615-ac4c-68a8988ee60c&fileName=%224.05%20Adding%20Constraints.mp4%22 4.05 Adding Constraints] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=0b8553e3-a207-4411-b16d-ce57e13a7b98&fileName=%224.06%20Creating%20the%20Ramp%20D%20Corridor.mp4%22 4.06 Creating the Ramp D Corridor] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=eec263a7-96d1-466e-8c37-4b2afd6b0502&fileName=%224.07%20Adding%20Constraints%20and%20Key%20Stations.mp4%22 4.07 Adding Constraints and Key Stations] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=aa7e8894-f409-4721-bd60-0ed6a428fe97&fileName=%224.08%20End%20Condition%20Cleanup.mp4%22 4.08 End Condition Cleanup] | ||
+ | |||
+ | ===[[#Superelevation| Superelevation]]=== | ||
+ | Section 5 covers Superelevation | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=f9b1a423-eac0-4287-b5f4-d40b46ee765d&fileName=%225.01%20Create%20Superelevation%20Section.mp4%22 5.01 Creating Superelevation Sections] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=11b46c4d-602d-43db-900c-113e420d362a&fileName=%225.02%20Create%20Superelevation%20Lanes.mp4%22 5.02 Creating Superelevation Lanes] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=80d47eb3-b319-4173-8fd9-afd132cc57ba&fileName=%225.03%20Calculating%20Superelvation%20-%20Software%20Method.mp4%22 5.03 Calculating Superelevation - Software Method] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=f35b416d-7e88-442b-9057-0f579cb33077&fileName=%225.04%20Viewing%20and%20Editing%20Superelvation.mp4%22 5.04 Viewing and Editing Superelevation] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=60d59724-f0b3-40c1-b3fb-84edd6efd3ab&fileName=%225.05%20Using%20the%20Superelevation%20Spreadsheet.mp4%22 5.05 Using the Superelevation Spreadsheet] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=24108caf-6f0d-4255-8311-1f8b5c3e5cc3&fileName=%225.06%20Adding%20Superelevation%20Manually.mp4%22 5.06 Adding Superelevation Manually] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=d0c0acb5-ac34-4fcf-9700-589bb861aeab&fileName=%225.07%20Adding%20Superelevation%20to%20Corridor.mp4%22 5.07 Adding Superelevation to the Corridor] | ||
+ | |||
+ | ===[[#Templates| Templates]]=== | ||
+ | Section 6 covers Templates | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=408d9b24-4787-4b13-b609-2bf1d6863f85&fileName=%226.01%20Creating%20a%20New%20Template%20Library.mp4%22 6.01 Creating a New Template Library] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=bc5697cf-6f97-4974-be64-3654b0c88d25&fileName=%226.02%20Using%20the%20Template%20Library%20Organizer.mp4%22 6.02 Using the Template Library Organizer] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=78da36f8-c587-41c0-bf21-64704b4dacd6&fileName=%226.03%20Editing%20an%20Existing%20Template.mp4%22 6.03 Editing an Existing Template] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=16ac3084-e7df-4965-9ec9-e9f2b1f05e71&fileName=%226.04%20Creating%20a%20Mainline%20Template.mp4%22 6.04 Creating a Mainline Template] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=7af68df8-7c6c-4ea8-83a3-41b8187c09bc&fileName=%226.05%20Creating%20a%20Ramp%20Template.mp4%22 6.05 Creating a Ramp Template] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=f1952e3a-e25e-4125-a730-717c62eac8c1&fileName=%226.06%20Creating%20a%20Median%20Ditch%20Template.mp4%22 6.06 Creating a Median Ditch Template] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=60162022-da8d-479e-9fd5-f88f0ea9dabe&fileName=%226.07%20Creating%20a%20Display%20Rule.mp4%22 6.07 Creating a Display Rule] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=add991fe-a700-48cf-b811-1c7b4c77de49&fileName=%226.08%20Active%20Template%20Tips.mp4%22 6.08 Active Template Tips] | ||
+ | |||
+ | ===[[#Non-Corridor Modeling| Non-Corridor Modeling]]=== | ||
+ | Section 7 covers modeling non linear items such as driveways, ramp terminals and gores | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=87dad57a-519a-4a15-ac95-70e07da7e8a5&fileName=%227.01%20Gore%20Modeling.mp4%22 7.01 Gore Modeling] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=f3b7a0c2-e7d2-4064-a913-842bc3a4a9c3&fileName=%227.02%20Edit%20and%20Place%20a%20Ramp%20Terminal%20Civil%20Cell.mp4%22 7.02 Edit and Place a Ramp Terminal Civil Cell] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=947c93e1-74b0-4992-8369-73cf23e750e6&fileName=%227.03%20Edit%20and%20Place%20a%20Driveway%20Civil%20Cell.mp4%22 7.02 Edit and Place a Driveway Civil Cell] | ||
+ | |||
+ | ===[[#Modeling Existing Materials| Modeling Existing Materials]]=== | ||
+ | Section 8 covers modeling existing materials | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=60592107-f823-4534-a3d0-3beab10b53e5&fileName=%228.01%20Existing%20Materials%20Setup.mp4%22 8.01 Existing Materials Setup] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=63811a54-a1c5-4512-9c0f-637121f2bda2&fileName=%228.02%20Creating%20Clipped%20Surfaces.mp4%22 8.02 Creating Clipped Surfaces] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=d2f01d04-795c-431d-b560-b2644229a03c&fileName=%228.03%20Creating%20Existing%20Materials%20Templates.mp4%22 8.03 Creating Existing Materials Templates] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=6aafe379-8b4b-416b-92b5-a57d51bb7b89&fileName=%228.04%20Applying%20a%20Surface%20Template.mp4%22 8.04 Applying a Surface Template] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=b29f04e2-622e-431d-8a90-4bd9b1e25696&fileName=%228.05%20Understanding%20Volume%20Options.mp4%22 8.05 Understanding Volume Options] | ||
+ | |||
+ | ===[[#Earthwork and Reporting | Earthwork and Reporting]]=== | ||
+ | Section 9 covers earthwork and reporting | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=ed677f05-1d51-464f-bbe1-3d56e4cc7c42&fileName=%229.01%20Creating%20Cut%20Fill%20Volumes.mp4%22 9.01 Creating Cut Fill Volumes] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=8896c50c-ac7b-41b7-aa85-61e186742c55&fileName=%229.02%20Earthwork%20Reporting.mp4%22 9.02 Earthwork Reporting] | ||
+ | |||
+ | [https://mdotjboss.state.mi.us/SpecProv/getDocumentById.htm?docGuid=d932318f-603c-4eb0-b920-363137fdb4d7&fileName=%229.03%20Reviewing%20Earthwork%20Volumes%20in%20Cross%20Section.mp4%22 9.03 Reviewing the Earthwork in Cross Section] | ||
==[[#OpenRoads Designer Best Practices | OpenRoads Designer Best Practices]]== | ==[[#OpenRoads Designer Best Practices | OpenRoads Designer Best Practices]]== |
Revision as of 08:49, 26 August 2020
Bentley Products
OpenRoads Designer Learning Path
Course Overviews
Microstation Part 1
Course Overview
Part 1 of the Microstation Connect Edition learning path is a self-paced Bentley Learn course that is available to all MDOT CADD users.
This course is a pre-requisite for all other MDOT learning paths
This self-paced Bentley Learn course covers foundational knowledge for use basic Microstation tools as a civil designer. For consultant designers with access to Bentley Learn, this learning path is very similar to the MicroStation CONNECT Edition Learning Path for Civil Designers which is available to all Bentley Learn subscribers. Topics covered include:
- Introduction to MicroStation Connect Edition
- Controlling the Display of Designs for Civil Designers
- Using General Tools in MicroStation Connect Edition for Civil Designers
- Drawing with MicroStation for Civil Designers
- Additional Drawing Tools
- Manipulating and Modifying Elements for Civil Designers
- Working with Cells for Civil Designers
- Annotating Designs for Civil Designers
Course Pre-Requisites: This course assumes no previous knowledge of Microstation. There are no pre-requisites for this course. This course is a pre-requisite for all other MDOT learning paths.
Estimated Time to Complete: 32 Hours
OpenRoads Designer Part 1
Course Overview
Part 1 of the OpenRoads Designer learning path is a self-paced Bentley Learn course that is available to all MDOT CADD users.
This self-paced Bentley Learn course covers foundational knowledge for how to model a road using the OpenRoads tools. For consultant designers with access to Bentley Learn, this learning path is very similar to 00 – OpenRoads Designer – Roadway Design & Modeling Fundamentals learning path available to all Bentley Learn subscribers. Topics covered include:
- QuickStart – Navigating the Interface
- QuickStart for Terrain Display
- QuickStart for OpenRoads Designer Geometry
- Using and Editing Templates
- QuickStart for OpenRoads Designer Corridor Modeling
Course Pre-Requisites: This course assumes a working knowledge of basic Microstation functions. Users should review and complete the following courses prior to taking this course:
- Microstation Connect Edition Part 1 (Available to MDOT Employees via Bentley Learn)
Estimated Time to Complete: 10 Hours
OpenRoads Designer Part 2
Course Dataset: OpenRoads Designer Part 2
Course Overview
Part 2 of the OpenRoads Designer is an MDOT developed course that can be completed either self-paced, or in-person as classes are offered by MDOT. This course is compatible with the versions of OpenRoads Designer and the MDOT Connect Workspace that are currently in production at MDOT.
This 2-day course covers foundational knowledge that is required to complete a roadway model on a MDOT design project. The course is broken down into 5 sections covering the following concepts:
- Survey Files
- Horizontal Geometry
- Vertical Geometry
- Corridor Modeling
- Superelevation
Course Pre-Requisites: This course assumes a working knowledge of basic Microstation and OpenRoads Designer functions. Users should review and complete the following courses prior to taking this course:
- Microstation Connect Edition Part 1 (Available to MDOT Employees via Bentley Learn)
- OpenRoads Designer Part 1 (Available to all MDOT Employees via Bentley Learn)
Estimated Time to Complete: 14 Hours
OpenRoads Designer Part 3
Course Overview
Part 3 of the OpenRoads Designer learning path is a self-paced Bentley Learn course that is available to all MDOT CADD users.
This self-paced Bentley Learn course expands on the foundational knowledge that was learned in part 1 of the MDOT OpenRoads Designer learning path. For consultant designers with access to Bentley Learn, this learning path is very similar to the 01 – OpenRoads Designer – Roadway Design & Modeling – Intermediate learning path available to all Bentley Learn subscribers. Topics covered include:
- Intersection Design – Horizontal and Vertical Geometry
- Intersection Design – 3D Model Detailing
- Defining Template Components and Constraints
- Defining Template End Conditions
- Template Triggers and Switches
Course Pre-Requisites: This course assumes a working knowledge of basic Microstation and OpenRoads Designer functions. Users should review and complete the following courses prior to taking this course:
- Microstation Connect Edition Part 1 (Available to MDOT Employees via Bentley Learn)
- OpenRoads Designer Part 1 (Available to MDOT Employees via Bentley Learn)
Estimated Time to Complete: 10 Hours
OpenRoads Designer Part 4
Course Dataset: Openroads Designer Part 4
Course Overview
Part 4 of the OpenRoads Designer is an MDOT developed course that can be completed either self-paced, or in-person as classes are offered by MDOT. This course is compatible with the current version of OpenRoads Designer in production at MDOT and well as the current version of the MDOT Connect Workspace.
This 2-day course covers intermediate roadway modeling concepts that are required to complete more complex roadway models on a MDOT design project. The course is broken down into 5 sections covering the following concepts:
- Template Design
- Model Detailing
- Modeling Existing Conditions
- Earthwork and Reporting
- RID File Creation
Course Pre-Requisites: This course assumes an intermediate knowledge of basic Microstation and OpenRoads Designer functions. Users should review and complete the following courses prior to taking this course:
- Microstation Connect Edition Part 1 (Available to MDOT Employees via Bentley Learn)
- OpenRoads Designer Part 1 (Available to MDOT Employees via Bentley Learn)
- OpenRoads Designer Part 3 (Available to MDOT Employees via Bentley Learn)
Estimated Time to Complete: 14 Hours
Survey Files
Section 1 shows how to use the existing information from the survey RID files.
Horizontal Geometry
Section 2 covers horizontal geometry.
2.01 Importing and Annotating Geometry
2.03 Add Stationing and Equation
2.04 Designing the Ramp D Alignment
Vertical Geometry
Section 3 covers vertical geometry.
3.03 Designing the Ramp D Profile
Corridor Modeling
Section 4 covers Corridor Modeling
4.0 Understanding the Corridor
4.01 Creating the Backbone Corridors
4.03 Adding the Right Side Corridors
4.04 Adding the Median Corridor
4.06 Creating the Ramp D Corridor
4.07 Adding Constraints and Key Stations
Superelevation
Section 5 covers Superelevation
5.01 Creating Superelevation Sections
5.02 Creating Superelevation Lanes
5.03 Calculating Superelevation - Software Method
5.04 Viewing and Editing Superelevation
5.05 Using the Superelevation Spreadsheet
5.06 Adding Superelevation Manually
5.07 Adding Superelevation to the Corridor
Templates
Section 6 covers Templates
6.01 Creating a New Template Library
6.02 Using the Template Library Organizer
6.03 Editing an Existing Template
6.04 Creating a Mainline Template
6.06 Creating a Median Ditch Template
Non-Corridor Modeling
Section 7 covers modeling non linear items such as driveways, ramp terminals and gores
7.02 Edit and Place a Ramp Terminal Civil Cell
7.02 Edit and Place a Driveway Civil Cell
Modeling Existing Materials
Section 8 covers modeling existing materials
8.02 Creating Clipped Surfaces
8.03 Creating Existing Materials Templates
8.04 Applying a Surface Template
8.05 Understanding Volume Options
Earthwork and Reporting
Section 9 covers earthwork and reporting
9.01 Creating Cut Fill Volumes
9.03 Reviewing the Earthwork in Cross Section
OpenRoads Designer Best Practices
File Federation
It is extremely important to protect the data that we are designing. All CONNECT edition data lives in a DGN and can no longer be recovered from an external source such as a GPK file. Federating files allow allows for maximum efficiency when working with a large design team since there is less risk of two designers needing to access the same file.
In General
- Each alignment should have it's own DGN
- Each alignment should have it's own Superelevation DGN (if required)
- Each corridor should have it's own DGN
- Each designer should work in their own template library
While this does create a lot of DGN files on a large project, container files can be created for each type of file to make accessing or reviewing other data more streamlined.
Corridor Processing Order
Understanding what a corridor is doing it is processing is important because the techniques that are used to create the corridor can have a large impact on processing speed. In general, the corridor is processed in the following order:
- The template is dropped, and points are placed in their default location as they are currently saved in the template library
- Parametric constraints are applied; Points are recalculated
- Horizontal Feature Constraints are applied; Points are recalculated
- Point Controls are applied; Points are recalculated
- Display rules are computed
- End conditions are solved
Some important notes on the above processing order
- You can think of the order of processing as a priority for that specific constraint. For example, if a point control and a parametric constraint are placed on the same point over the same station range, the point control will win. This is because point controls are calculated after parametric constraints.
- The locations of the points are calculated and updated multiple times. Display rules are not calculated until after the location of the points have been established. A complex template with many display rules will process much slower than a simple template because the locations of template points are calculated multiple times even if the component is not visible.
Corridor Modeling Techniques
There are many different effective approaches to corridor modeling. In general, the modeling approach will fall into one of three categories
- Super Template: One template is used for each corridor. The corridor is manipulated and changed using a series of complex display rules.
- Simple Templates: Multiple full width templates are created for each typical cross section.
- Multi-Corridor: Each major component of the corridor is broken into separate corridors. For example, a backbone corridor for the lanes and pavement section, and left and right side corridors for shoulders, curb and gutter, side slopes, and ditches.
It is important to decide the method that will be used to model the project early in the modeling process, as it can be difficult to change gears after a substantial part of the modeling has been completed. The table below has been created to compare the different modeling approaches
Criteria | Super Template | Simple Templates | Multi-Corridor |
---|---|---|---|
Number of Design Files | Least | Least | Most |
Number of Templates | Least | Most | Middle |
Ease of Modifying Templates | Difficult | Easy | Moderate |
Corridor Processing | Slowest | Middle | Fastest |
Supports Multiple Modelers | No | No | Yes |
Items to take into consideration are:
- How many designers will be working on modeling related tasks
- How important is corridor processing speed
- On a small project, processing speed may not be a consideration as all of the above methods will process fast
- Skill level of the design team
- While super templates can be difficult to modify, an experienced user may find this easier than managing many templates and corridors
- How comfortable is the design team with managing many files