Ordering Descriptor Types by Their Ability to Faithfully Represent Shapes

Explore the intricacies of topological descriptors in shape representation through this 47-minute lecture from the Applied Algebraic Topology Network. Delve into the concept of geometric simplicial complexes embedded in R^d and the finite sets of topological descriptors generated by lower-star filtrations. Examine the differences between augmented and non-augmented descriptor types, and investigate how various types of information recorded during filtration (such as homology and Euler characteristic) lead to different topological descriptors like persistence diagrams and Euler characteristic curves. Engage with the fascinating topic of ordering equivalence classes of descriptor types based on their capacity to faithfully represent simplicial complexes. Encounter compelling visuals, thought-provoking open questions, and gain insights into shape comparison techniques, all presented in an accessible manner suitable for a broad audience.

Anna Schenfisch (07/26/23) Ordering Descriptor Types by their Ability to Faithfully Represent Shapes