Genetic Programming for Explainable Manifold Learning
March 21, 2024 ยท Declared Dead ยท ๐ IEEE Transactions on Emerging Topics in Computational Intelligence
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Authors
Ben Cravens, Andrew Lensen, Paula Maddigan, Bing Xue
arXiv ID
2403.14139
Category
cs.NE: Neural & Evolutionary
Cross-listed
cs.LG
Citations
2
Venue
IEEE Transactions on Emerging Topics in Computational Intelligence
Last Checked
4 months ago
Abstract
Manifold learning techniques play a pivotal role in machine learning by revealing lower-dimensional embeddings within high-dimensional data, thus enhancing both the efficiency and interpretability of data analysis by transforming the data into a lower-dimensional representation. However, a notable challenge with current manifold learning methods is their lack of explicit functional mappings, crucial for explainability in many real-world applications. Genetic programming, known for its interpretable functional tree-based models, has emerged as a promising approach to address this challenge. Previous research leveraged multi-objective GP to balance manifold quality against embedding dimensionality, producing functional mappings across a range of embedding sizes. Yet, these mapping trees often became complex, hindering explainability. In response, in this paper, we introduce Genetic Programming for Explainable Manifold Learning (GP-EMaL), a novel approach that directly penalises tree complexity. Our new method is able to maintain high manifold quality while significantly enhancing explainability and also allows customisation of complexity measures, such as symmetry balancing, scaling, and node complexity, catering to diverse application needs. Our experimental analysis demonstrates that GP-EMaL is able to match the performance of the existing approach in most cases, while using simpler, smaller, and more interpretable tree structures. This advancement marks a significant step towards achieving interpretable manifold learning.
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