The persistent laplacian for data science: Evaluating higher-order persistent spectral representations of data
The persistent laplacian for data science: Evaluating higher-order persistent spectral representations of data
Persistent homology is arguably the most successful technique in Topological Data Analysis. It combines homology, a topological feature of a data set, with persistence, which tracks the evolution of homology over different scales. The persistent Laplacian is a recent theoretical development that combines persistence with the combinatorial Laplacian, the higher-order extension of the well-known graph Laplacian. Crucially, the Laplacian encodes both the homology of a data set, and some additional geometric information not captured by the homology. Here, we provide the first investigation into the efficacy of the persistent Laplacian as an embedding of data for downstream classification and regression tasks. We extend the persistent Laplacian to cubical complexes so it can be used on images, then evaluate its performance as an embedding method on the MNIST and MoleculeNet datasets, demonstrating that it consistently outperforms persistent homology.
Sanchez-Garcia, Ruben J
8246cea2-ae1c-44f2-94e9-bacc9371c3ed
Davies, Thomas Ogwen Michael
55626665-ec62-46e8-9140-11316e5c2576
Wan, Zhengchao
161e2464-f949-47f6-a2e4-57152f9a8dc0
15 June 2023
Sanchez-Garcia, Ruben J
8246cea2-ae1c-44f2-94e9-bacc9371c3ed
Davies, Thomas Ogwen Michael
55626665-ec62-46e8-9140-11316e5c2576
Wan, Zhengchao
161e2464-f949-47f6-a2e4-57152f9a8dc0
Sanchez-Garcia, Ruben J, Davies, Thomas Ogwen Michael and Wan, Zhengchao
(2023)
The persistent laplacian for data science: Evaluating higher-order persistent spectral representations of data.
International Conference on Machine Learning (ICML 2023).
23 - 29 Jul 2023.
Record type:
Conference or Workshop Item
(Paper)
Abstract
Persistent homology is arguably the most successful technique in Topological Data Analysis. It combines homology, a topological feature of a data set, with persistence, which tracks the evolution of homology over different scales. The persistent Laplacian is a recent theoretical development that combines persistence with the combinatorial Laplacian, the higher-order extension of the well-known graph Laplacian. Crucially, the Laplacian encodes both the homology of a data set, and some additional geometric information not captured by the homology. Here, we provide the first investigation into the efficacy of the persistent Laplacian as an embedding of data for downstream classification and regression tasks. We extend the persistent Laplacian to cubical complexes so it can be used on images, then evaluate its performance as an embedding method on the MNIST and MoleculeNet datasets, demonstrating that it consistently outperforms persistent homology.
Text
5250_the_persistent_laplacian_for_d_accepted_june15
- Accepted Manuscript
More information
Accepted/In Press date: 15 June 2023
e-pub ahead of print date: 15 June 2023
Published date: 15 June 2023
Venue - Dates:
International Conference on Machine Learning (ICML 2023), 2023-07-23 - 2023-07-29
Identifiers
Local EPrints ID: 478595
URI: http://eprints.soton.ac.uk/id/eprint/478595
PURE UUID: 975ad468-d0e9-4ed7-b306-2a813f701e30
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Date deposited: 05 Jul 2023 17:19
Last modified: 17 Mar 2024 03:21
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Contributors
Author:
Thomas Ogwen Michael Davies
Author:
Zhengchao Wan
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