Connecting the Dots: Discovering the "Shape" of Data

• Main Authors: Feng, Michelle, Hickok, Abigail, Kureh, Yacoub H, Porter, Mason A, Topaz, Chad M
• Format: Journal Article
• Language: English
• Published: 13.04.2020
• Subjects: Computer Science - Computational Geometry; Mathematics - Algebraic Topology; Mathematics - History and Overview; Physics - Physics Education
• DOI: 10.48550/arxiv.2004.07036

Scientists use a mathematical subject called 'topology' to study the shapes of objects. An important part of topology is counting the numbers of pieces and holes in objects, and people use this information to group objects into different types. For example, a doughnut has the same number of holes and the same number of pieces as a teacup with one handle, but it is different from a ball. In studies that resemble activities like "connect the dots", scientists use ideas from topology to study the shape of data. Data can take many possible forms: a picture made of dots, a large collection of numbers from a scientific experiment, or something else. The approach in these studies is called 'topological data analysis', and it has been used to study the branching structures of veins in leaves, how people vote in elections, flight patterns in models of bird flocking, and more. Scientists can take data on the way veins branch on leaves and use topological data analysis to divide the leaves into different groups and discover patterns that may otherwise be hard to find.