Bibliographic Information: Batan, M. A., Landi, C., & Pamuk, M. (2024). A Closed Formula for the Interleaving Distance of Rectangle Persistence Modules. arXiv:2411.01430v1 [math.AT].
Research Objective: The study aims to develop a computationally efficient method for determining the interleaving distance between rectangle persistence modules, addressing the challenge of NP-hardness associated with computing this distance for general persistence modules.
Methodology: The authors leverage the geometric properties of rectangles representing persistence modules to derive a closed formula. They establish theoretical connections between the existence of non-trivial morphisms between modules and the relative positions of their underlying rectangles. This allows them to define interleaving morphisms based on the geometric relationships between the rectangles and ultimately arrive at the closed formula for the interleaving distance.
Key Findings: The paper presents a novel closed formula for the interleaving distance between two rectangle persistence modules. This formula depends only on the geometric attributes of the underlying rectangles, specifically the minimum and maximum values of their defining intervals and the maximum norm of the difference between their corner points. The authors further extend this result to compute the bottleneck distance for rectangle decomposable persistence modules, providing a practical method for comparing these more complex modules.
Main Conclusions: The derived closed formula offers a computationally efficient alternative to existing methods for calculating the interleaving distance between rectangle persistence modules. This has significant implications for topological data analysis, particularly in applications involving the comparison and analysis of complex datasets represented by persistence modules.
Significance: This research contributes significantly to the field of topological data analysis by providing a practical and efficient method for comparing rectangle persistence modules. The closed formula simplifies the computation of the interleaving distance, potentially enabling more efficient analysis and interpretation of complex data in various applications.
Limitations and Future Research: The study focuses specifically on rectangle persistence modules. Exploring similar closed formulas for other classes of persistence modules or developing approximate methods for more general cases could be promising avenues for future research. Additionally, investigating the practical implications and efficiency gains of the proposed formula in various application domains would be valuable.
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by Mehmet Ali B... : arxiv.org 11-05-2024
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