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Master in BIM Modeling and GIS Integration
Transform your skills with a comprehensive course on BIM fundamentals and advanced GIS integration techniques for enhanced project collaboration, visualization, and spatial analysis.
After the Course you'll be familiar with
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BIM Modeling Proficiency
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Georeferencing BIM Data
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BIM-GIS Workflow Integration
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3D Visualization and Presentation
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Spatial Analysis Techniques
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Capstone Project Execution
Both online and offline(Bangalore) mode available with customized class timings
-Live Training with Experienced Trainers
-Placement Assistance Training
-Guidance to Get Job
-Labs for Practice, Assignments & Final Assessment for Certification
Trainers with 5+ years of hands-on experience in various aspects of Geospatial Technology
Duration- 21 Days/42 Hrs.
Monday-Friday
What you'll learn
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BIM Fundamentals
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Architectural Modeling
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Georeferencing BIM Data
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BIM and GIS Integration
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3D Visualization
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Advanced spatial queries and multi-criteria analysis
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Extracting and organizing project data through scheduling and tagging
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Building Scene Layers, filter data, and manage BIM models
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Real-World Workflows
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Capstone Project
Course Tools and Exercises
BIM Modeling Proficiency
A digital building model seamlessly blending into a geographical map
Georeferencing BIM Data
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A 3D model of a building with metadata pop-ups
Module 1: Introduction to BIM Modeling
Day 1: Introduction to Revit and BIM Basics
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Introduction to Revit's interface: Ribbon, Quick Access Toolbar, View Control Bar, Properties Palette, and Project Browser.
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Overview of BIM, Revit’s capabilities, and its role in facilitating collaboration, visualization, project management, scheduling, and materials management.
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Sample project creation.
Day 2: Getting Started with Revit
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Software installation process and setup (if applicable).
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Launching Revit and navigating the interface.
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Basic file operations: creating a new project, opening existing projects, and saving projects.
Day 3: Creating a Simple Project
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Setting up project units, levels, and other basic project settings.
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Creating a new project and defining basic project parameter.
Days 4-7: Basic Modeling in Revit
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Placing architectural elements such as walls, doors, windows, and floors using sketch-based and component-based methods.
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Understanding constraints and dimensions to ensure accurate representation and maintain design intent.
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Introduction to basic modeling tools and techniques, including editing and modifying elements as needed.
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Applying materials to model elements to represent real-world finishes and textures.
Days 8-9: Working with Families
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Understanding families: what they are and how to use them.
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Exploring the Revit library for pre-built families and customizing their parameters.
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Inserting families into the project and applying modifications.
Module 2: Transition to BIM and GIS Integration
Day 10: Working with Views
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Introduction to different types of views: plan, elevation, section, and 3D.
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Navigating between views and understanding their properties.
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Creating new views and duplicating existing ones.
Day 11: Tagging Rooms and Spaces
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Adding room and space tags to the model.
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Understanding room and space schedules.
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Customizing room and space tags for better documentation.
Day 12: Adding Annotations
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Placing text annotations such as labels and callouts.
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Adding dimensions to the model.
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Using detailed components for annotations.
Day 13: Scheduling
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Introduction to scheduling in Revit, including the concept of data extraction and organization.
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Creating and customizing schedules for various elements in the project, such as doors, windows, and rooms.
Day 14: Finalizing the BIM Project
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Generating basic drawings like floor plans and elevations to document the design.
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Setting up sheets and organizing drawings into a cohesive set for printing or digital distribution.
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Closing the project and saving changes, ensuring data integrity and project continuity.
Module 3: Advanced BIM and GIS Integration
Day 15: Introduction to BIM and GIS Integration
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Overview of BIM and GIS
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The benefits of integrating BIM with GIS.
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Key workflows for BIM-to-GIS integration.
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Tools and platforms: ArcGIS Pro, ArcGIS Online, Autodesk Construction Cloud.
Day 16: Geolocating BIM Data
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BIM geospatial coordinates: Understanding georeferencing.
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Converting BIM data to a geodatabase.
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Validating CAD and BIM data positioning.
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Hands-on: Georeference a 3D digital building model in ArcGIS Pro.
Day 17: Visualizing BIM Data in GIS
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Creating 3D web scenes for construction planning.
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Integrating real-world meshes and BIM models.
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Publishing 3D scenes to ArcGIS Online.
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Hands-on: Create and publish a 3D construction visualization.
Day 18: Building Scene Layers from Revit Models
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Constructing Building Scene Layers in ArcGIS Pro.
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Leveraging the Building layer.
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Filtering and organizing BIM data for usability.
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Hands-on: Create and filter a building scene layer.
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Hands-on: Edit a building layer for property management.
Day 19: Spatial Analysis with BIM and GIS
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Performing spatial queries on BIM data.
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Multi-criteria analysis for construction planning.
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Integrating environmental impact data with BIM.
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Hands-on: Use GIS for planning and impact assessment.
Day 20: Customizing and Enhancing Data Presentation
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Cartographic principles for 3D maps.
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Enhancing BIM data presentation in GIS.
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Creating user-friendly dashboards in ArcGIS Online.
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Hands-on: Build and publish an interactive dashboard.
Day 21: Final Capstone Project
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Develop a complete workflow:
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Import BIM data.
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Geolocate and visualize models.
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Perform spatial analysis and share results.
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Create and publish a 3D web scene.
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Collaborative work in teams.
Top Companies who hire GIS Professionals
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