March 5, 2015
Mathematics Colloquium Lecture March 5
Henry Segerman, Oklahoma State University, will present "Design of 3-D Printed Mathematical Art" as part of the Mathematics Department Colloquium Lecture series at 2:30 p.m. Thursday, March 5, in 122 Cardwell Hall.
The abstract for the lecture:
When visualising topological objects via 3-D printing, we need a 3-dimensional geometric representation of the object. There are three broad strategies for doing this: "Manual" — using whatever design software is available to build the object by hand; "Parametric" — generating the desired geometry using a parametrisation of the object; and "Iterative" — numerically solving an optimisation problem.
The manual strategy is unlikely to produce good results unless the subject is very simple. In general, if there is a reasonably canonical geometric structure on the topological object, then we hope to be able to produce a parametrisation of it. However, in many cases this seems to be impossible and some form of iterative method is the best we can do. Within the parametric setting, there are still better and worse ways to proceed. For example, a geometric representation should demonstrate as many of the symmetries of the object as possible. There are similar issues in making 3-dimensional representations of higher dimensional objects. I will discuss these matters with many examples, including visualisation of 4-dimensional polytopes (using orthogonal versus stereographic projection) and Seifert surfaces (comparing my work with Saul Schleimer with Jack van Wijk's iterative techniques).
I will also describe some computational problems that have come up in my 3-D printed work, including the design of 3-D printed mobiles (joint work with Marco Mahler), "Triple gear" (joint work with Saul Schleimer), and hinged surfaces with negative curvature (joint work with Geoffrey Irving).