GSD Course Bulletin - Fall 2010
02107 [M1]: Digital Media I (VIS 0210701)
Lecture - 2 credits
This course is a module. It lasts the first half of the semester only.
Monday 2:00 - 5:00 Gund 111
Christopher Hoxie, Andrew Witt
Topics in Parametric and Generative Geometry and ModelingThis class explores the design and science of logical form making, examined through geometry, parametric control, algorithms, and digital tools. The point of departure is a cumulative sequence of fundamental topics and problems in design geometry which have recurring impact on the history of form. These problems will provide a context and pretext for a rigorous introduction to parametric modeling, algorithmic automation, and the mathematical principles underpinning them. These logical investigations of modeling will cultivate a certain objective approach to form that explores the application of parametric approaches that are both deductive (for example, topological classifications, surface characteristics, and pattern logics) and empirical (for example, material deformation and generative detailing). Thematically, the course will foster an integrated understanding of topics such as parametric geometry definition, surface geometry qualification, and the converse dynamics of packing and subdivision. As a part of the course, students will use the parametric design tools Digital Project and CATIA , supplemented by other tools to interrogate and permute these design problems. Through a series of lectures, software tutorials, and mathematical workshops students will respond to the fundamental design problems with a progression of digital design modeling exercises culminating in a final project which will demonstrate appropriate synthesis of design ambition, mathematical characterization, and parametric control.FormatThe class will be a weekly 3-hour session divided into a lecture half and software and geometry workshop half. The class will be organized thematically, with each theme encompassing certain historical, technical, and formal principles. EvaluationStudents will be evaluated through a series of modeling problems and a final project.PrerequisitesNone