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Design Computing: 3D Modeling in Rhinoceros with Python Rhinoscript
Use Rhinoceros 3D modelling software to design complex geometric forms
As our world is increasingly impacted by the use of algorithms, designers must learn how to use and create design computing programs.
Structured around a series of fundamental design problems, this course will show you Python code in terms of its rules and syntax, and teach you what we can do with Python in its application and design.
By the end of the course, you’ll not only know the fundamentals of Python and Rhino script, but also understand them through the lens of their application in geometrically focused design lessons and exercises.
- An introduction to Design Computing as a subject and why designers should learn to code.
- The fundamentals of coding in the Python scripting language. By the end of the course students will be familiar with the basic structure and syntax of this language.
- The understanding and application of Rhinoscriptsyntax, a native coding language in Rhinoceros that’s imported into Python, which allows one to create and control geometries through authoring code.
- The application of Procedural Logics - the structuring of coding systems to produce variable geometric form.
- The output of geometries in still and animate forms.
Learning on this course
You can take this self-guided course and learn at your own pace. On every step of the course you can meet other learners, share your ideas and join in with active discussions in the comments.
What will you achieve?
By the end of the course, you‘ll be able to...
- Apply the fundamentals of Python including: Control Flow [module importing, conditionals, iteration(looping), operators, functions, comments, booleans] and Data Structures [strings, variables, lists, tuples, dictionaries]
- Apply the fundamentals of Rhinoscript to create geometric systems and produce variable geometric form, in 2D and 3D, rendered in still and animated formats
- Utilize search and help commands for Rhinoscript and Python command libraries.
- Apply the practice of de-bugging.
- Produce code that produces variable geometric form (in 2D and 3D) in still image and animated formats.
- Produce coded geometric systems that are reactive to changes in input parameters and attractor geometries (points, curves, surfaces)
Who is the course for?
This course is designed for any students and practitioners who use the 3D modeling software Rhinoceros and want to design more complex geometric forms through structuring and implementing coding logics.
This course will be helpful to designers (architectural, industrial, product, web, furniture), artists (multimedia, digital, sculpture), and programmers.
By completing the course, students can decide if they’d like to study more advanced computing topics through further education, such as recursion, agents, and complex generative systems.
What software or tools do you need?
Learners will need access to Rhinocerous 3D which offers a free, full version, 90-day trial for Windows and Mac. After 90 days a purchased license will be required to save files or use plug-ins. We walk you through how to install Rhinocerous 3D in the course.
Who developed the course?
As the #1 public research university in the United States, U-M has been a leader in research, learning, and teaching for more than 200 years, with 102 Grad programs in the top 10 — U.S. News & World Report (2019).
LocationAnn Arbor, Michigan, USA
World rankingTop 30Source: Times Higher Education World University Rankings 2020
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