BIM Architecture Diploma

** BIM Architecture Diploma ده لمين ؟

* طلبه كلية الهندسة قسم عمارة

*خريجي كلية الهندسة المعمارية

**الشهادات المعتمدة

🎁  شهاده معتمده من نقابة المهندسين

🎁  شهاده دولية معتمده من اوتوديسك

برامج الدبلومة

🔹️ الريفيت المعماري  Revit Architecture 
🔹️ دينامو Dynamo
🔷نافيزوركس  NavisWorks
🔷 فاميليز Families 
🔷Acc

محتوى الدبلومة

*الدبلومة 40 محاضرة بمعدل 120 ساعة تدريبيه 

Introduction

Welcome to the Architectural BIM Program, a specialized and industry-aligned curriculum designed to equip architects and architecture students with the essential knowledge and practical skills required to thrive in the evolving landscape of Building Information Modeling (BIM). This program is carefully structured to provide a deep understanding of BIM principles from an architectural perspective, with hands-on training in the tools and workflows that are shaping the future of design and construction.
:Program Overview

 The Architectural BIM Diploma focuses on core areas relevant to architectural practice, including foundational BIM concepts, advanced training in Autodesk Revit, Autodesk Navisworks Manage for design review and clash detection, and Dynamo for automation and computational design. The program also introduces essential project coordination techniques to integrate architectural design seamlessly with structural and MEP disciplines, ensuring well-rounded BIM capabilities for real-world application.
: Target Audience

o Architecture Students and Recent Graduates
o Junior and Senior Architects
o BIM Coordinators in Architectural Firms
o Professionals transitioning to BIM-based workflows
:Program Objectives
o Develop a comprehensive understanding of BIM in the context of architectural design.
o Achieve proficiency in architectural modeling using Revit Architecture and related tools.
o Apply BIM principles to real-world design projects and architectural documentation.
o Enhance collaboration skills with multidisciplinary teams through cloud-based platforms.
o Foster innovation and efficiency through automation and parametric design techniques.
By the end of this program, participants will be fully equipped to implement BIM processes within architectural firms, produce accurate and coordinated models, and contribute effectively to modern, collaborative design environments.
Course 01 

A. Understanding the Principles of BIM (2 Lectures, 6 Hours)
* Introduction to BIM
* BIM Dims and Levels
* BIM Uses
*  BIM Standards
B. Autodesk Revit Essentials (14 Lectures, 42 Hours)
o Introduction to BIM and Autodesk Revit
o Revit Interface, Navigation, Project Setup (Levels, Grids)
o Walls, Openings, and Curtain Walls
o Doors, Windows, and Components
o Floors, Roofs, and Ceilings
o Stairs, Ramps, and Railings
o Plan, Elevation, Section, and 3D Views
o Annotation: Dimensions, Tags, Text, Symbols
o Materials and Rendering Basics
o Rooms, Room Tags, and Color Schemes
o Creating and Customizing Schedules
o Creating Sheets, View Placement, and Print/Export
o Detail Views and Drafting Views
o Design Options and Phasing
o View Templates, Filters, and Scope Boxes
o Creating and Managing Revit Templates
o Managing Object Styles and Line Weights
Revit Essentials Project Review (1 Lecture, 3 Hours)
Course 02 C. Autodesk Revit Advanced (8 Lectures, 24 Hours)
o Introduction to the Family Editor
o Parametric Controls
o Shared and Project Parameters
o Worksharing and Central Models
o Linking Models and Coordination Tools
o Shared Coordinates and Geolocation
o Topography and Site Tools
o Conceptual Massing
Revit Advanced Project Review (1 Lecture, 3 Hours)
Course 03

 D. Autodesk Navisworks Manage (6 Lectures, 18 Hours)
o What is Navisworks and why it matters in BIM workflows
o Navisworks file types: NWD, NWF, NWC
o Navigating the user interface: Viewpoints, Selection Tree, Properties
o Appending vs. Merging models
o Navigation tools: Walk, Orbit, Zoom, Sectioning tools
o Working with the Selection Tree and Object Properties
o Search and Selection Sets (Static and Rules-Based)
o Viewpoints: Saving views and redlining
o Section planes and section boxes
o Setting up Clash Tests between models (e.g., MEP vs. Structure)
o Clash types: Hard, Clearance, Duplicate
o Clash rules and tolerances
o Reviewing clashes and adding comments
o Generating Clash Reports (HTML, XML, etc.)
o Updating and tracking clash status over time
o What is TimeLiner and its purpose in 4D simulation
o Adding a timeline and creating tasks
o Linking model elements to tasks
o Importing schedules from Primavera, MS Project, Excel
o Assigning appearances and customizing simulation sequences
o Viewpoint animations and flythroughs
o Animator tool: Basic animations and object movement
o Creating section animations
o Real-time walkthrough tips
o Exporting visual content: Animations, Viewpoints, Screenshots
o Preparing a coordination package for team presentation
Navisworks Manage Project Review (1 Lecture, 3 Hours)
Course04

 E. BIM Automation with Dynamo (6 Lectures, 18 Hours)
o What is Dynamo? (History and Role in BIM)
o Dynamo Interface and Workspace
o Nodes, Wires, and Execution Model
o Data Types in Dynamo: Strings, Numbers, Booleans, Lists
o Understanding Revit-Dynamo Integration
o Selecting and Filtering Revit Elements
o Reading and Modifying Element Parameters
o Use of Categories, Types, and Instances
o Getting and Setting Parameters
o Automating Gridlines and Levels
o Automating Sheet Creation and Titleblock Placement
o Placing Viewports on Sheets
o Creating and Managing Schedules with Dynamo
o Exporting Data to Excel and Importing Data
o Room Data Extraction and Tagging
o Introduction to Geometry in Dynamo (Points, Lines, Surfaces)
o Dynamo Player for End-User Workflows
o Best Practices for Managing Dynamo Graphs
BIM Automation Project Review (1 Lecture, 3 Hours)
Course Outputs, Features, and Best Practices
Course Outputs
Upon successful completion of the Architectural BIM Program, participants will:
 Understand and Apply BIM Principles: Demonstrate deep understanding of BIM concepts, dimensions, standards, and uses across project lifecycles.
 Proficiently Use Autodesk Revit: Develop complete architectural and parametric models using Revit’s full range of tools for walls, components, stairs, views, annotations, and sheets.
 Master Project Documentation: Produce high-quality construction documents, schedules, and detail drawings, adhering to BIM execution strategies.
 Create Advanced Revit Families: Design custom parametric families with shared/project parameters and apply templates and standards for model efficiency.
 Collaborate Using Worksharing & Coordinates: Manage team collaboration, central models, shared coordinates, and linked models in large-scale projects.
 Coordinate with Autodesk Navisworks: Import, review, and run clash detection on multidisciplinary models; simulate project timelines and perform quantity takeoff.
 Automate Revit Tasks with Dynamo: Use visual programming to automate repetitive tasks, extract and manipulate data, and enhance Revit workflows.
 Integrate Data and BIM Tools: Leverage data across platforms using Excel, custom scripts, and packages to create scalable and intelligent BIM solutions.
 Think Critically and Solve Problems: Tackle real-world design coordination, scheduling, and modeling issues with creative, efficient BIM-based solutions.
Course Features
 Structured Curriculum: Modular learning paths covering BIM foundations to automation and coordination.
 Hands-On Training: Project-based assignments and software practice in every lecture.
 Expert Instruction: Delivered by certified professionals with industry experience.
 Comprehensive Learning Materials: Reference files, templates, exercise datasets, and cheat sheets.
 Interactive Learning Environment: Collaborative discussions, peer learning, and live project feedback.
 Assessment and Feedback: Quizzes, assignments, and instructor evaluations for ongoing improvement.
 Certification: Recognized certification upon completion of all modules and successful project review.
Best Practices
 Industry-Aligned Training: Curriculum reflects global BIM trends and ISO standards.
 Emphasis on Collaboration: Promotes teamwork across disciplines using real BIM coordination tools.
 Practical Application: Focus on real-life project workflows, datasets, and problem-solving.
 Integration of Tools and Technologies: Unified use of Revit, Navisworks, Dynamo, and external data sources.
 Supportive Learning Environment: Instructor mentoring, community support, and peer-to-peer collaboration.
 Assessment-Driven Learning: Skills verified through assessments, capstone projects, and feedback cycles.
 Accessibility and Flexibility: Content delivery designed for diverse learning needs and geographic access.
By adhering to these best practices, the BIM Diploma Program ensures that participants receive a high-quality education that is both comprehensive and directly applicable to their professional roles in the AEC industry.