11-28-2024, 06:52 PM
Generative Design Specialization - Bim Intelligence Aulageo
Published 5/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 8.41 GB | Duration: 15h 31m
Optimization Proposals with Computational Design using Revit, Dynamo and Graphisoft
What you'll learn
Apply computational design principles in real situations
Understand the basic concepts associated with generative design workflows
Understand the trends of the IA applied to BIM modeling
Understand the basic concepts associated with generative design workflows
Parameterize complex designs using visual programming (Dynamo)
Create parameterized design proposals
Requirements
Basic knowledge of Revit
Description
LEVEL I - BIM Generative Design with RevitThe need to design more efficiently and with higher quality in construction projects forces us to use tools designed to optimize time and resources. The mastery of Computational and Generative Design opens the possibility of applying a large number of innovative techniques for the conception of projects and the evaluation of multiple alternatives in an efficient and fast way, obtaining unbeatable results.BIM generative design with RevitMultidisciplinary workflows for generative designImplementation of generative Dedign in architecture and engineering firmsIn this level, we will address one of the most interesting applications that we currently find within computational design: Generative Design. Thanks to the previous modules we will have understood how to translate design requirements into programmable rules, now we will be able to use optimization algorithms that iterate over these rules in a range of values previously determined by the designer. This will expand our universe of options from a few alternatives to thousands or hundreds of thousands, resulting in optimal solutions even in the most complex and difficult-to-evaluate cases.#AulaGEO The possibility of applying new design techniques greatly expands the range of solutions that can be offered to end customers for project execution. At the same time, it allows the designer to grow in competitiveness and face new challenges.In this level, in addition to explaining the use, possibilities, and advantages of Generative Design within an organization, we will also recommend some actions to put into practice to choose the work team in your company that will provide optimal solutions to the challenges that arise.LEVEL II - Visual Programming with Dynamo & RevitThis level is a friendly and introductory guide to the world of computational design using Dynamo, an open-source visual programming platform for designers.Visual programming with Dynamo & RevitGeometry treatmentConnection to RevitIn progress, it is developed through projects in which the basic concepts of visual programming will be learned. Among the topics, we will cover working with computational geometries, best practices for rule-based design, application programming for interdisciplinary design, and much more with the Dynamo Platform.#AulaGEO Dynamo's power is evident in a wide variety of design-related activities. Dynamo allows us to:Explore programming for the first timeConnect workflows in various softwarePromote the activity of communities of users, contributors, and developersDevelop an open-source platform with constant improvementsThe need to make designs more efficiently and with higher quality in construction projects forces us to use tools designed to optimize time and resources. Mastery of Computational and Generative Design opens the possibility of applying a large number of innovative techniques for the conception of projects and the evaluation of multiple alternatives efficiently and quickly, obtaining unbeatable results.The possibility of applying new design techniques significantly widens the range of solutions to be offered to end customers for the execution of projects. At the same time, it offers the designer the opportunity to grow in competitiveness and face new challenges.LEVEL III - Visual Programming with Rhino, Grasshopper & RevitIn order for the student to develop a complete understanding of the state of the art in computational design, one of the most powerful visual programming tools on the market, Grasshopper, will be introduced during this level. This visual scripting environment is installed by default in the most recent versions of Rhinoceros 3D.Visual programming with Rhino, Grasshopper & RevitGrasshopper in RevitGrasshopper application in computational designThanks to Rhino. Inside technology, it is possible to use the power of Rhino, including Grasshopper, in other applications. Such is the case of Revit with Rhino.Inside.Revit. It will be shown how to exploit the power of Grasshopper within Revit itself.Finally, the door will be opened to a myriad of Grasshopper applications for various design tasks. #AulaGEO We will also study how to use Grasshopper in the preparation of geometries for 3D printing, how to use physical simulation engines within Grasshopper, and even how to use these engines in the optimization of structures and environmental impact analysis.The possibility of applying new design techniques significantly broadens the range of solutions to be offered to end customers for project execution. At the same time, it allows the designer to grow in competitiveness, and face new challenges.The need to design more efficiently and with higher quality in construction projects forces us to use tools designed to optimize time and resources. #AulaGEO The mastery of Computational and Generative Design opens the possibility of applying a great number of innovative techniques for the conception of projects and the evaluation of multiple alternatives in an efficient and fast way, obtaining unbeatable results.
Overview
Section 1: LEVEL I - BIM GENERATIVE DESIGN WITH REVIT
Lecture 1 LEVEL I - Welcome
Lecture 2 Level I - Introduction to Generative Design
Lecture 3 Level I - Computational Design
Lecture 4 Level I - Generative Design
Lecture 5 Level I - Stages and steps of generative design
Section 2: LEVEL I - MULTIDISCIPLINARY WORKFLOWS FOR GENERATIVE DESIGN
Lecture 6 Example of generative design - MaRs Innovations District
Lecture 7 What is an algorithm?
Lecture 8 Options Engineering
Lecture 9 Optimization
Lecture 10 Genetic Algorithms
Lecture 11 Visual Programming
Lecture 12 Introduction to Dynamo
Lecture 13 User Interface
Lecture 14 Hello world in Dynamo
Lecture 15 Data Types
Lecture 16 Lists
Lecture 17 Revit Elements
Lecture 18 Generative design tool in Revit
Lecture 19 Creation of a Generative Design study
Lecture 20 Simple case - Highest point of a surface
Lecture 21 Simple Case - Minimum Volume and Maximum Surface Area
Lecture 22 Building Massing Generator
Lecture 23 Positioning building according to solar incidence
Lecture 24 Optimized office space planning
Lecture 25 Placement of objects in a grid
Lecture 26 Random object placement
Lecture 27 Distribution of luminaires
Lecture 28 Placement of views on sheets
Section 3: LEVEL I - IMPLEMENTATION OF G.D. IN ARCHITECTURE AND ENGINEERING FIRMS
Lecture 29 Generative design in organizations
Lecture 30 Next Steps
Section 4: LEVEL II - VISUAL PROGRAMMING WITH DYNAMO & REVIT
Lecture 31 First approach to Dynamo and its scope
Lecture 32 What is a Computational Design?
Lecture 33 Dynamo user interface
Lecture 34 Work space
Lecture 35 First Project in Dynamo
Lecture 36 Nodes in detail
Lecture 37 Cables in detail
Lecture 38 Managing the programs
Lecture 39 Data flow
Lecture 40 Mathematical operations
Lecture 41 Logical conditions
Lecture 42 Text Strings
Lecture 43 Colors
Section 5: LEVEL II - GEOMETRY TREATMENT
Lecture 44 Vectors
Lecture 45 Points
Lecture 46 Curves
Lecture 47 Surfaces
Lecture 48 Solid
Lecture 49 Thigts
Lecture 50 Lists definition
Lecture 51 Working with lists
Lecture 52 Lists de lists
Lecture 53 n-dimensionales lists
Section 6: LEVEL II - CONNECTION TO REVIT
Lecture 54 Object selection
Lecture 55 Object editing
Lecture 56 Item creation
Lecture 57 Creation of direct forms
Lecture 58 Personalization
Lecture 59 Documentation
Lecture 60 Export and Import to Excel
Lecture 61 Dynamo Player
Lecture 62 Curtain panels with solar sudy
Section 7: LEVEL III - VISUAL PROGRAMMING WITH RHINO, GRASSHOPPER & REVIT
Lecture 63 Introduction to Rhino Grasshopper
Lecture 64 User Interface
Lecture 65 Communication with Rhino
Lecture 66 Object types
Lecture 67 Components in detail
Lecture 68 Type of data
Lecture 69 Cables in detail
Lecture 70 First definition in Grasshopper
Lecture 71 Working with hot spots
Lecture 72 Expressions and conditionals
Lecture 73 Domains and colors
Lecture 74 Geometries and curves
Lecture 75 List processing
Lecture 76 Creating lists
Lecture 77 Displaying lists
Lecture 78 Lists management
Lecture 79 Working with lists
Lecture 80 Surfaces
Lecture 81 Data Trees
Lecture 82 Components for data trees
Lecture 83 Basic anatomy of meshes
Lecture 84 Working with meshes
Section 8: LEVEL III - GRASSHOPPER IN REVIT
Lecture 85 Rhino.Inside.Revit
Lecture 86 Parameters
Lecture 87 Elements and instances
Lecture 88 Grids
Lecture 89 Levels
Lecture 90 Walls
Section 9: LEVEL III - GRASSHOPPER APPLICATION IN COMPUTATIONAL DESIGN
Lecture 91 Intro to Kangaroo
Lecture 92 Optimized Shape in Revit
Designers,Professionals and students of architecture and engineering careers,BIM modelers,IA researchers