Exploring Algebraic Topology and Homotopy Theory: Methods, Empirical Data, and Numerical Examples

Abstract

Algebraic topology is a powerful branch of mathematics that bridges algebra and topology to study qualitative properties of spaces. Homotopy theory, a core component of algebraic topology, deals with the concept of continuous deformation between functions and spaces. This paper explores the fundamental concepts of algebraic topology and homotopy theory, supported by empirical methodologies and numerical examples. A key emphasis is placed on computational tools such as persistent homology and the use of simplicial complexes to analyze real-world datasets, including image datasets and sensor networks. By integrating theoretical foundations with applied examples, this study demonstrates how algebraic topology can be used not only to understand abstract mathematical spaces but also to draw insights from complex data structures.