Revit and Dynamo for Bridges Roads and Tunnels from Udemy

This course it’s part of a new series of developments towards bringing Dynamo as main platform tool on BIM processes for any type of project.

Infrastructure and element analysis for linear projects are often manage with Civil 3d with out reviewing individual analysis elements, on this course we will bend the rules and aproach to the benefits of having a Dynamic Modeling Tool to create other types of results that can be review documented and quantified.

We will study ways to create elements integrated together and connect further to set construction possibilities.

We will explore custom nodes for specific aproaches so that your own toolkit can be created.

This course was develop by a client’s requirement to speed up dynamo learning focused only on Bridges Railways and Tunnels for a general use so it speed up the process of jumping to dynamo by the required practical tools, user interface tools and dynamo player capabilities.

We will explore tools for Revit Modeling, Tools for Dynamo Programming, Mixed Tools for Bridges

This course it’s a recommended next step for Dynamo Modeling with Structure

Dynamo its been used all over the world for speeding up Revit Models, Enabling impossible modeling, Project Management, QTOS and Documents, and to set around workflows between different types.

Unravel your full potential for Modeling and Programming and enjoy at any time the freedom of posibilities to make technology work the way you need it to.

Take advantage of posting questions, and join on all channels to be uptodate for all the amazing posibilities that in any time can transform your way of working, to change it forever

What's inside

Learning objectives

How to create structural engineers elements for bridges roads and tunnels using sets of geometrical rules
How to get a deep overview to all model elements

How to review that information assets comply with the values set.

How to create structural engineers elements for bridges roads and tunnels using sets of geometrical rules
How to get a deep overview to all model elements
How to review that information assets comply with the values set.

Syllabus

Introduction

Dynamo BIM Overview with Revit 2020

Steps and Setup for the Dynamo Scripts

Resources

Dynamo Basic Requirements

Model Lines to Points and Curves

Functions Over Curves

Lists and Surfaces

Vectors

Coordinate Systems

Element Creation

Use of Dynamo Player

Topography Extraction

Bridge Creation

Main Line For Bridge

Structural supports

Placement of Supports

Tensors Creation

Placing Elements on Bridge

Road Creation Components

Road Creation Path

Conveyour Structure Spliting Lines

Placing Over the Curve

Tunneling Creation Components

Tunnel creation Path

Tunneling Shape Developed

Manhole Extraction

Good to know

Know what's good

, what to watch for

, and possible dealbreakers

Focuses on Dynamo, which is used worldwide for speeding up Revit models and enabling complex modeling for project management and documentation

Explores custom nodes for specific approaches, allowing learners to create their own toolkit for bridges, railways, and tunnels

Teaches the creation of structural engineering elements for bridges, roads, and tunnels using geometrical rules, which is essential for infrastructure projects

Requires Revit 2020, which may not be the latest version and could lack newer features and updates available in more recent releases

Recommends this course as a next step for Dynamo Modeling with Structure, suggesting prior experience with Dynamo is beneficial

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Revit and Dynamo for Bridges Roads and Tunnels with these activities:

Review Revit Fundamentals

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Reviewing Revit fundamentals will ensure a solid base for understanding the course's advanced Dynamo applications.

Browse courses on Revit

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Review Revit's user interface and basic modeling tools.
Practice creating simple models in Revit.
Familiarize yourself with Revit's family editor.

Brush Up on Dynamo Basics

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Refreshing Dynamo basics will help you grasp the course's advanced scripting techniques for infrastructure projects.

Browse courses on Dynamo

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Review Dynamo's interface and node library.
Practice creating simple Dynamo scripts.
Understand data types and list management in Dynamo.

Read 'Mastering Revit Architecture'

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Reading 'Mastering Revit Architecture' will provide a deeper understanding of Revit's capabilities, enhancing your ability to leverage Dynamo for complex infrastructure modeling.

View Mastering Autodesk Revit Architecture 2016:... on Amazon

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Read the chapters related to modeling and parametric design.
Experiment with the techniques described in the book within Revit.

Four other activities

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Follow Dynamo Tutorials for Civil Engineering

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Following tutorials specifically for civil engineering applications of Dynamo will provide practical examples and workflows relevant to the course.

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Search for online tutorials focusing on Dynamo for civil engineering.
Follow the tutorials step-by-step, replicating the workflows.
Adapt the tutorials to your own projects and challenges.

Dynamo Script for Parametric Bridge Deck

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Starting a project to create a Dynamo script for a parametric bridge deck will solidify your understanding of the course material and provide a practical application of your skills.

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Define the parameters for the bridge deck (e.g., width, length, curvature).
Create a Dynamo script to generate the bridge deck geometry based on the parameters.
Integrate the script with Revit to create a parametric bridge deck model.
Test and refine the script to ensure it meets your requirements.

Document Your Dynamo Bridge Script

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Creating documentation for your Dynamo script will reinforce your understanding and allow others to learn from your work.

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Write a detailed description of the script's functionality.
Create diagrams illustrating the script's workflow.
Provide clear instructions on how to use the script.
Share your documentation with the course community.

Explore 'Dynamo BIM Programming with Autodesk Revit'

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Exploring 'Dynamo BIM Programming with Autodesk Revit' will deepen your understanding of Dynamo's capabilities and provide practical examples for infrastructure projects.

View Putting Knowledge to Work on Amazon

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Read the chapters related to advanced Dynamo scripting techniques.
Experiment with the examples provided in the book within Dynamo.

Career center

Learners who complete Revit and Dynamo for Bridges Roads and Tunnels will develop knowledge and skills that may be useful to these careers:

Infrastructure Designer

Infrastructure designers plan and design the systems, networks and structures that support society. This course focuses specifically on the kinds of projects an infrastructure designer commonly works on, using tools well-suited to the task. The course emphasizes using Dynamo as a main tool in BIM processes and how to create integrated elements, which may assist an infrastructure designer in developing better design and workflow strategies. The course’s focus on construction possibilities and the development of custom node toolkits, may give an infrastructure designer more control. This course will help them integrate dynamic modeling into their workflow, and give them better control of documentation.

See salaries and explore the career path for Infrastructure Designer

BIM Modeler

BIM modelers create and manage digital representations of physical and functional characteristics of buildings and infrastructure. This course provides direct training in using tools such as Revit and Dynamo to create detailed models, which is central to a BIM modeler's role. The course focuses on modeling bridges, roads, and tunnels, which are common projects for BIM professionals. By learning to create elements integrated together to set construction possibilities, the BIM modeler can produce more comprehensive and accurate models. The course teaches how to use Revit modeling tools, Dynamo programming and custom nodes. These skills may be useful for a BIM modeler, allowing them to create and control the project elements and documentation. This course goes beyond basic model creation, enabling the BIM modeler to leverage the possibilities of dynamic modelling.

See salaries and explore the career path for BIM Modeler

CAD Technician

CAD technicians create technical drawings and plans using computer aided design software. The course provides training in modeling with Revit and Dynamo and focuses on using these tools for infrastructure projects, which is directly relevant to the work of a CAD technician. A CAD technician may find the course's methods for creating structural elements, and its training on construction possibilities, directly valuable. The course goes beyond basic CAD with it's emphasis on dynamic modeling, making it especially relevant. The course’s information on generating geometric rules and developing custom nodes, may create the opportunity for a CAD technician to create a more complete, dynamic toolkit. The course’s emphasis on using Dynamo to review, document, and quantify elements may improve a CAD technician's workflow.

See salaries and explore the career path for CAD Technician

Structural Engineer

Structural engineers analyze and design the structural integrity of buildings and infrastructure. The focus of this course on the structural elements of bridges, roads, and tunnels aligns directly with this career path. Using Dynamo and Revit for modeling structural components, as learned in this course, can be highly beneficial for a structural engineer looking to improve their design processes. The course teaches how to create structural elements, place supports, and create tensors, all of which are critical tasks for a structural engineer. The application of Dynamo for creating dynamic analysis tools that help in reviewing, documenting and quantifying structural elements gives those in this role more control, and may help improve workflows. The course’s methods of integrating construction possibilities may also be useful.

See salaries and explore the career path for Structural Engineer

Civil Engineer

Civil engineers are involved in the design, construction, and maintenance of infrastructure projects such as bridges, roads, and tunnels, making this course potentially helpful. This course focuses on using Dynamo and Revit to model these types of structures, which could help a civil engineer enhance their design workflows. The course's emphasis on creating elements with geometrical rules, coupled with its methods for reviewing information, may help a civil engineer create more accurate and efficient models. The skills learned in the course regarding element creation, topography extraction, and customized node creation, may allow civil engineers greater control over their designs and analyses. This training may help them integrate dynamic modeling techniques, document designs, and quantify their projects in a dynamic environment.

See salaries and explore the career path for Civil Engineer

Railroad Engineer

Railroad engineers design and oversee the construction of railroad infrastructure. This course, while not exclusively focused on railroads, addresses similar modeling needs. This course emphasizes using Dynamo as a main BIM platform tool, and also focuses on the creation of tunnels and bridges. A railroad engineer may make use of this information to create dynamic tools that more accurately represent their projects. This course teaches how to create elements integrated together, and it also emphasizes construction possibilities. The course’s focus on custom nodes and dynamic analysis may give a railroad engineer more control over project elements, analysis, and documentation.

See salaries and explore the career path for Railroad Engineer

Construction Manager

Construction managers plan, coordinate, and oversee construction projects, and knowledge of BIM is essential. This course, which teaches modeling with Revit and Dynamo, may help a construction manager get more insight into project design and workflow, and may help them optimize construction processes. The course focuses on using Dynamo as a platform tool on BIM, and also integrates construction possibilities into modeling. The training on creating and managing elements with Dynamo can help a construction manager better control workflows and manage documentation. A construction manager may improve at leveraging data produced by the methods described in this course. The course goes beyond traditional modeling to emphasize dynamic elements that may assist in construction planning.

See salaries and explore the career path for Construction Manager

Design Engineer

Design engineers translate ideas into detailed plans for manufacturing and construction. The skills learned in this course may help them improve their workflows. This course places emphasis on using Dynamo as a main BIM platform tool, and it focuses on infrastructure which can be immediately relevant to engineers. This course teaches how to create structural elements with geometrical rules, and emphasizes construction possibilities. A design engineer may benefit from the course's methods of reviewing information, and also how to document and quantify elements. The course’s emphasis on custom nodes and dynamic modeling may present design engineers with a rich new set of tools.

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Project Engineer

Project engineers manage and coordinate engineering projects, making this course potentially useful. This course’s training on modeling infrastructure with Revit and Dynamo may help a project engineer gain deeper insights into design and implementation. The course teaches how to create elements integrated together and connect further to set construction possibilities. This fits well with the kind of problem-solving that a project engineer is concerned with. Project engineers may make use of the course’s training in creating custom nodes, documentation, and analysis elements. A project engineer may gain new abilities to manage and review project models, better understand dynamic processes, and make use of data produced using the methodology described in this course.

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Transportation Modeler

Transportation modelers develop and use computer models to simulate transport systems. This course, with its focus on modeling bridges, roads, and tunnels, may be of interest to a transportation modeler. This course teaches how to create structural elements with geometrical rules, and focuses on the integration of dynamic modeling tools. A transportation modeler may use these skills directly, or could translate them into the specific modeling tools they use. This course may help a transportation modeler learn to integrate design more directly into the planning and analysis phases. The course’s emphasis on review, documentation and quantification may help a transportation modeler develop more effective models.

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Transportation Planner

Transportation planners develop strategies for moving people and goods efficiently and safely. While this role is not directly focused on engineering, the modeling of bridges, roads, and tunnels using Revit and Dynamo may help these professionals better understand project components. This course gives insight to the element analysis for linear projects, and ways to create integrated elements, which can help transportation planning. The course’s focus on modeling infrastructure elements, and its method for reviewing information, may assist transportation planners in evaluating design effectiveness and proposing improvements. A transportation planner may improve at visualizing how infrastructure impacts their broader planning decisions, and make use of the data produced using the techniques described in this course.

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Architectural Designer

Architectural designers create the plans and designs for buildings and other structures. While primarily focused on buildings, they may also work on infrastructure projects, making this course potentially relevant. This course's training on using Revit and Dynamo to model elements of bridges, roads, and tunnels may help an architectural designer better understand interdisciplinary workflows and the way design affects execution. The course’s focus on using Dynamo to review, document, and quantify elements may assist an architectural designer in creating better project integrations. The information on integrating geometrical rules and customized node creation may help an architectural designer create more comprehensive projects. This course may provide a different perspective on how design decisions impact construction and documentation.

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Geotechnical Engineer

Geotechnical engineers investigate and design foundations for buildings, bridges and other structures. While this course is more focused on structural elements, the information on topography extraction and the analysis of elements may help to give a geotechnical engineer a more comprehensive understanding of a project. This course focuses on creating models using Revit and Dynamo, which may enhance their workflow and give them the opportunity to integrate their data into the BIM process. The course's training on integrating construction possibilities may help geotechnical engineers better understand how design decisions may impact implementation. The course may help a geotechnical engineer better understand the dynamic analysis tools used in this course.

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Surveyor

Surveyors gather and analyze data about the earth's surface, and while they may not be modelers, the training in topography extraction and model element analysis may provide a surveyor with a better understanding of the processes involved in infrastructure projects. This course teaches how to integrate elements together, and focuses on models for bridges, roads and tunnels. A surveyor may find this course enhances their workflow by assisting in understanding the scope of project planning and design. The information on data analysis and geometric rules may be useful context for a surveyor. This course may help a surveyor better appreciate dynamic models and their associated documentation.

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Urban Planner

Urban planners develop plans and policies for the development of urban areas, and while this role is not focused on design, the course material may be useful. This course’s focus on infrastructure may give an urban planner a better understanding of the possibilities when planning urban elements. The course teaches the creation of elements integrated together, and also the integration of construction possibilities. An urban planner may take advantage of this knowledge to create better strategies and recommendations for the development of urban spaces. The course may improve an urban planner’s ability to visualize how infrastructure may change the context of their work.

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Reading list

We've selected two books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Revit and Dynamo for Bridges Roads and Tunnels.

Putting Knowledge to Work

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Focuses specifically on Dynamo programming within the Revit environment. It provides in-depth explanations of Dynamo's nodes and how they can be used to automate tasks and create complex geometries. It's a valuable resource for understanding the intricacies of Dynamo scripting and how to apply it to real-world BIM projects. This book adds more depth to the course by providing detailed examples and case studies.

Putting Knowledge to Work

Paperback

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Putting Knowledge to Work

Kindle Edition

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Mastering Autodesk Revit Architecture 2016

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Provides a comprehensive guide to Revit Architecture, covering a wide range of topics from basic modeling to advanced techniques. It's a valuable resource for understanding the underlying principles of Revit and how it can be used to create complex building models. While not directly focused on Dynamo, it provides a strong foundation for understanding Revit's capabilities, which is essential for effective Dynamo scripting. This book is commonly used as a textbook in architectural programs.

Mastering Autodesk Revit Architecture 2016:...

Paperback

Revit and Dynamo for Bridges Roads and Tunnels

What's inside

Learning objectives

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Activities

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