Kernel k-Medoids as General Vector Quantization

Vector Quantization (VQ) is a widely used technique in machine learning and data compression, valued for its simplicity and interpretability. Among hard VQ methods, k-medoids clustering and Kernel Density Estimation (KDE) approaches represent two prominent yet seemingly unrelated paradigms—one distance-based, the other rooted in probability density matching. In this paper, we investigate their connection through the lens of Quadratic Unconstrained Binary Optimization (QUBO). We compare a heuristic QUBO formulation for k-medoids, which balances centrality and diversity, with a principled QUBO derived from minimizing Maximum Mean Discrepancy in KDE-based VQ. Surprisingly, we show that the KDE-QUBO is a special case of the k-medoids-QUBO under mild assumptions on the kernel’s feature map. This reveals a deeper structural relationship between these two approaches and provides new insight into the geometric interpretation of the weighting parameters used in QUBO formulations for VQ.

  • Veröffentlicht in:
    IEEE International Conference on Quantum Artificial Intelligence (QAI)
  • Typ:
    Inproceedings
  • Autoren:
    Gerlach, Thore; Mücke, Sascha; Bauckhage, Christian
  • Jahr:
    2025

Informationen zur Zitierung

Gerlach, Thore; Mücke, Sascha; Bauckhage, Christian: Kernel k-Medoids as General Vector Quantization, IEEE International Conference on Quantum Artificial Intelligence (QAI), 2025, Gerlach.etal.2025a,

Assoziierte Lamarr-ForscherInnen

Kopie von LAMARR Person 500x500 1 - Lamarr Institute for Machine Learning (ML) and Artificial Intelligence (AI)

Prof. Dr. Christian Bauckhage

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Portrait of Sascha Mücke.

Sascha Mücke

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Portrait of Thore Gerlach.

Thore Gerlach

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