L&T EduTech via Coursera |
Go to Course: https://www.coursera.org/learn/bim-fundamentals-for-engineers
Learn the fundamentals of BIM, including creating 3D models and using isometric views to enhance project efficiency and collaboration.
Use specific modeling techniques for architecture, structure, and MEP, adhering to ISO 19650 standards for managing Work In Progress (WIP).
Learn the basics of Autodesk Revit, Revit Architecture for building design, starting with file setup and modeling architectural elements.
Use Revit MEP for mechanical, electrical, and plumbing design, including HVAC, plumbing, piping, fire protection systems, and electrical lighting
Introduction to BIM
The module "Introduction to BIM" covers the basics of Building Information Modeling (BIM) and its role in engineering. Participants will learn about creating 3D models, using isometric views, and understanding the BIM process. They'll explore how BIM applies to different projects like residential buildings, airports, and water treatment plants, highlighting its benefits for project efficiency and collaboration. This module aims to introduce learners to BIM's practical applications in modern engineering and construction projects.
Design Authoring - Discipline Based ModelingThe module "Design Authoring - Discipline based modeling" teaches participants how to use specific modeling techniques tailored to different disciplines. It covers workflow basics and adheres to ISO 19650 standards for managing Work In Progress (WIP). By the end, learners will understand how to improve design workflows, ensure consistency, and meet industry standards effectively. This module prepares them to apply these skills in architecture and engineering projects for better collaboration and efficiency.
Introduction to Revit ToolThe module "Introduction to Revit" teaches the basics of Autodesk Revit, a key tool for Building Information Modeling (BIM). Participants will learn how to use Revit's interface, explore its Ribbon menu for architecture and structural tools, understand annotation features, manage views, and handle project elements like worksets and phases. By the end, learners will be able to manage architectural and structural models efficiently using Revit's features.
Design Authoring - ArchitectureThe module "Design Authoring - Architecture" teaches you how to use Revit Architecture for building design. You'll start with the basics and learn file setup, then move on to modeling architectural elements in detail across different parts. You'll also master creating schedules, annotations, and sheets to organize your designs effectively. Advanced topics include managing project data and creating parametric families for flexible design options. By the end, you'll be able to confidently design and document architectural projects using Revit Architecture.
Design Authoring - StructureThis module, "Design Authoring - Structure," teaches how to use Revit Structure for structural design. You'll start with the basics and learn to model structural elements in detail. The course covers creating schedules, annotations, and sheets for organizing and presenting designs effectively. You'll also explore specialized Revit tools tailored for structural engineering to improve workflow and project management skills.
Design Authoring - MEPIn "Design Authoring - MEP," you'll learn how to use Revit MEP for mechanical, electrical, and plumbing design. The module covers basic navigation, setting up files with levels and grids, and modeling HVAC, plumbing, piping, fire protection systems, and electrical lighting. You'll also explore advanced topics like cable tray layout and creating parametric components for efficient MEP design in Revit.
In this course, we will explore the foundational principles of Building Information Modeling (BIM) and its practical applications, starting with the evolution of engineering from traditional 2D drawings to the shift towards object-based modeling, which forms the core of BIM. This understanding sets the stage for examining real-world implementations across diverse sectors including airports, residential and commercial buildings, water treatment plants, substations, transportation, and material ha
some steps were missing and had to use other resources to fill in the blanks, also the structural module should be before the architectural one