Applied and Computational Topology

Math 689-001 (Spring 2025)

Detailed Syllabus

This is a rough first draft, it will change!

The following table contains the tentative schedule for the course. It will be updated regularly throughout the semester. The Pages column refers to the pages in the notes that are covered each week. Further book recommendations for additional reading can be found at the end of this page.

Week Dates Book Sections
1   01/21 - 01/24   I. Introduction
  1. Planar Graphs
  2. The Brouwer Degree
  3. Solving a Maze with Topology
3   02/03 - 02/07   II. Complexes
  1. Simplicial Complexes
  2. Convex Set Systems
  3. Delaunay Complexes
  4. Alpha Complexes
  5. Lefschetz Complexes
5   02/17 - 02/21   III. Homology
  1. Chain Complexes
  2. Homology of Chain Complexes
  3. Matrix Reduction
  4. Relative Homology
  5. Exact Sequences
8 03/10 - 03/14    No class! (Spring Break)
9   03/17 - 03/21   IV. Persistence
  1. Persistent Homology
  2. Computing Persistence
  3. Extended Persistence
  4. Stability Theorems
  5. Application to Pattern Formation
12   04/07 - 04/11   V. Combinatorial Topological Dynamics
  1. Discrete Morse Theory
  2. Multivector Fields
  3. Conley Theory
  4. Connection Matrices
  5. Application to Classical Dynamics
16   05/05   Student Presentations

In addition, the following books might be useful as secondary reading: