2019
DOI: 10.48550/arxiv.1911.10693
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Persistent and Zigzag Homology: A Matrix Factorization Viewpoint

Gunnar Carlsson,
Anjan Dwaraknath,
Bradley J. Nelson

Abstract: Over the past two decades, topological data analysis has emerged as a young field of applied mathematics with new applications and algorithmic developments appearing rapidly. Two fundamental computations in this field are persistent homology and zigzag homology. In this paper, we show how these computations in the most general case reduce to finding a canonical form of a matrix associated with a type-A quiver representation, which in turn can be computed using factorizations of associated matrices. We show how… Show more

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Cited by 5 publications
(9 citation statements)
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References 29 publications
(70 reference statements)
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“…There are two algorithms that explicitly deal with computing the barcode bases associated to the interval decomposition. In Carlsson et al (2019) the authors use matrix factorisation techniques to obtain bases in which the matrices are in echelon form. This technique also applies to zizag modules.…”
Section: Related Workmentioning
confidence: 99%
“…There are two algorithms that explicitly deal with computing the barcode bases associated to the interval decomposition. In Carlsson et al (2019) the authors use matrix factorisation techniques to obtain bases in which the matrices are in echelon form. This technique also applies to zizag modules.…”
Section: Related Workmentioning
confidence: 99%
“…• Parallel versions [9,27] of the algorithms for computing standard and zigzag exist. While the computation of standard persistence in our FZZ algorithm can directly utilize the existing parallelization techniques, we ask if the conversions done in FZZ can be efficiently parallelized.…”
Section: Discussionmentioning
confidence: 99%
“…There are extensions to theory of persistent homology, such as zig-zag persistent homology [52,53] or multiparameter persistent homology [55,56]. The computation of these and other homological objects are actively developed and implemented to be accessible for applications [54,126,131,152,169,190,232]. An active area of research for studying higher-order analogues of directed networks is the mathematical field of directed algebraic topology, which aims to capture periodicity in data [93].…”
Section: 11mentioning
confidence: 99%