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MAPLE: Self-Supervised Learning-Enhanced Nonlinear Dimensionality Reduction for Visual Analysis

Machine Learning 2026-05-15 v2 Human-Computer Interaction
Authors: Zeyang Huang , Takanori Fujiwara , Angelos Chatzimparmpas , Wandrille Duchemin , Andreas Kerren
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Abstract

We present a new nonlinear dimensionality reduction method, MAPLE, that enhances UMAP by improving manifold modeling. MAPLE employs a self-supervised learning approach to more efficiently encode low-dimensional manifold geometry. Central to this approach are maximum manifold capacity representations (MMCRs), which help untangle complex manifolds by compressing variances among locally similar data points while amplifying variance among dissimilar data points. This design is particularly effective for high-dimensional data with substantial intra-cluster variance and curved manifold structures, such as biological or image data. Our qualitative and quantitative evaluations demonstrate that MAPLE can produce clearer visual cluster separations and finer subcluster resolution than UMAP while maintaining tractable computational cost.

Keywords

multi-view learning manifold learning dimensionality reduction

Cite

@article{arxiv.2601.20173,
  title  = {MAPLE: Self-Supervised Learning-Enhanced Nonlinear Dimensionality Reduction for Visual Analysis},
  author = {Zeyang Huang and Takanori Fujiwara and Angelos Chatzimparmpas and Wandrille Duchemin and Andreas Kerren},
  journal= {arXiv preprint arXiv:2601.20173},
  year   = {2026}
}

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