Explore statistical topology of random cell complexes and their applications in this 59-minute lecture by Benjamin Schweinhart. Delve into topics such as curvature flow on graphs, grain growth, and embedded graphs. Learn about existence and uniqueness in computational results, graph representation, and the tree of swatches. Examine swatch types, distances on swatches and cell complexes, and gain insights into Benjamin Schramm graph limits. Investigate the steady state hypothesis and its computational evidence. This comprehensive presentation, organized by the Applied Algebraic Topology Network, offers a deep dive into the intersection of statistical topology and random structures, providing valuable knowledge for researchers and students in the field.
Benjamin Schweinhart - Statistical Topology of Random Cell Complexes, and Applications
Applied Algebraic Topology Network via YouTube
Overview
Syllabus
Intro
Curvature Flow on Graphs
Grain Growth
Outline
Embedded Graph
Existence and Uniqueness
Computational Results
Graph Representation
Tree of Swatches
Swatch Types
Distance on Swatches
Distance on Cell Complexes
Benjamin Schwamm Graph Limit
More on Benjamin Schramm Graph Limits
Steady State Hypothesis, Formalized
Computational Evidence
Presentation Outine
Taught by
Applied Algebraic Topology Network
